VIDEOTEC MNVFWEB4-4 Web Interface Instruction Manual
- June 4, 2024
- VIDEOTEC
Table of Contents
MNVFWEB4-4 Web Interface
ENGLISH
Web interface
Firmware 4.4
EN English – Instruction manual IT Italiano – Manuale di istruzioni FR Français – Manuel d’instructions DE Deutsch – Bedienungsanleitung
RU – PT Português – Manual de instruções KO –
ENGLISH
Web interface
Firmware 4.4
EN English – Instruction manual
CENGLISH ontents
1
Instruction manual – English – EN
1 About this manual…………………………………………………………………………………………………….. 5
1.1 Typographical conventions ………………………………………………………………………………………………………………………………
5 2 Notes on copyright and information on trademarks…………………………………………………… 5
3 Warnings to upgrade the firmware ……………………………………………………………………………. 5
4 Product code and functionalities enabled …………………………………………………………………. 6
4.1 Dual vision products ………………………………………………………………………………………………………………………………………….
7 5 Notes on copyright and information on trademarks…………………………………………………… 7
6 Third party licences…………………………………………………………………………………………………… 7
7 Note on data security………………………………………………………………………………………………… 8
7.1 Introduction………………………………………………………………………………………………………………………………………………………… 8
7.2 Security functionalities which can be enabled in the
product………………………………………………………………….. 9
7.2.1 Authentication credentials
……………………………………………………………………………………………………………………………………………… 9 7.2.2
Encryption………………………………………………………………………………………………………………………………………………………………………….. 9
8 Default IP address …………………………………………………………………………………………………… 10
8.1 Internet Protocol version 4
(IPv4)………………………………………………………………………………………………………………….. 10 8.2 Internet Protocol
version 6 (IPv6)………………………………………………………………………………………………………………….. 10 9 Description
of the functionalities…………………………………………………………………………….. 10
9.1 First access to the web pages
………………………………………………………………………………………………………………………… 10 9.2 Home Page
……………………………………………………………………………………………………………………………………………………….. 10
9.2.1 Video Snapshot
……………………………………………………………………………………………………………………………………………………………….. 11 9.2.2
Operative mode………………………………………………………………………………………………………………………………………………………………. 11
9.2.3 Horizontal and vertical movement
……………………………………………………………………………………………………………………………… 11 9.2.4 Lens
control………………………………………………………………………………………………………………………………………………………………………12 9.2.5
Day/Night mode control
………………………………………………………………………………………………………………………………………………..12 9.2.6 Control of
Video Analytics mode………………………………………………………………………………………………………………………………….12 9.2.7
Metadata
display……………………………………………………………………………………………………………………………………………………………..13 9.2.8
Wiper and wash system control
……………………………………………………………………………………………………………………………………14 9.2.9 Home
management………………………………………………………………………………………………………………………………………………………..14 9.2.10
Preset Management………………………………………………………………………………………………………………………………………………………14
9.2.11 Digital Inputs/Outputs
Control……………………………………………………………………………………………………………………………………15 9.2.12 Flat Field
Correction activation …………………………………………………………………………………………………………………………………..15
9.2.13 Device control using the keyboard
…………………………………………………………………………………………………………………………….15 9.2.14 Warning
Bar…………………………………………………………………………………………………………………………………………………………………….16 9.3
Device Parameters Page…………………………………………………………………………………………………………………………………. 16
9.4 Camera Day/Night Settings
Page………………………………………………………………………………………………………………….. 17 9.5 Thermal Camera
Settings Page ……………………………………………………………………………………………………………………..20 9.6 Masking
Page…………………………………………………………………………………………………………………………………………………….26 9.6.1 Masking
for PTZ Page ……………………………………………………………………………………………………………………………………………………..26
9.6.2 Dynamic Masking Page for
PTZ…………………………………………………………………………………………………………………………………….27 9.6.3 Masking page
for fixed cameras …………………………………………………………………………………………………………………………………..28 9.7
Radiometry Rules Page ……………………………………………………………………………………………………………………………………29 9.8
Network Page …………………………………………………………………………………………………………………………………………………… 31
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9.8.1 Protocols Page (Network)
………………………………………………………………………………………………………………………………………………32 9.8.2 SNMP Page
(Network)…………………………………………………………………………………………………………………………………………………….33 9.8.3
Date and Time Page
(Network)……………………………………………………………………………………………………………………………………..33 9.9 Users
Page………………………………………………………………………………………………………………………………………………………….34 9.10 Motions
Recall Page ……………………………………………………………………………………………………………………………………….34 9.11 Motion
Detection page………………………………………………………………………………………………………………………………….35 9.12 Video
Analytics page ……………………………………………………………………………………………………………………………………..35 9.13
Rules and Calibration page……………………………………………………………………………………………………………………………36
9.13.1
Rules………………………………………………………………………………………………………………………………………………………………………………….36
9.13.2
Calibration……………………………………………………………………………………………………………………………………………………………………….37
9.13.3 Targets Classification
…………………………………………………………………………………………………………………………………………………….37 9.14 Washer System
Page ………………………………………………………………………………………………………………………………………38 9.15 Motion
Parameters Page ……………………………………………………………………………………………………………………………….39 9.16
Preset Tour Page……………………………………………………………………………………………………………………………………………..40 9.17
OSD page………………………………………………………………………………………………………………………………………………………….42 9.18
Night Mode Page…………………………………………………………………………………………………………………………………………….43 9.19
Encoder Parameters Page ……………………………………………………………………………………………………………………………..44
9.20 Digital I/O Page……………………………………………………………………………………………………………………………………………….46
9.21 Automatic Actions Page………………………………………………………………………………………………………………………………..
47 9.22 Schedule Page
………………………………………………………………………………………………………………………………………………..57 9.23 Geolocation
page…………………………………………………………………………………………………………………………………………..59 9.24 Security
Page…………………………………………………………………………………………………………………………………………………..60 9.24.1
Passphrases …………………………………………………………………………………………………………………………………………………………………….60
9.24.2 Keys
………………………………………………………………………………………………………………………………………………………………………………….61 9.24.3
Certificates………………………………………………………………………………………………………………………………………………………………………62
9.24.4 Certification Path
…………………………………………………………………………………………………………………………………………………………..63 9.24.5
Certificate Revocation List
(CRL)…………………………………………………………………………………………………………………………………64 9.24.6 Certification
Path Validation Policies …………………………………………………………………………………………………………………………65
9.24.7 TLS Server
……………………………………………………………………………………………………………………………………………………………………….66 9.24.8 IEEE
802.1x ………………………………………………………………………………………………………………………………………………………………………66
9.24.9 Security Policies Page (Security)
…………………………………………………………………………………………………………………………………67 9.25 IP Filter
page……………………………………………………………………………………………………………………………………………………68 9.26 Device
Statistics Page…………………………………………………………………………………………………………………………………….69 9.27
System Log Page…………………………………………………………………………………………………………………………………………….69 9.28
Tools Page………………………………………………………………………………………………………………………………………………………..70
10 Instructions for integration…………………………………………………………………………………….71
10.1 Special HTTP API
commands………………………………………………………………………………………………………………………..71 10.2 Special ONVIF
commands (auxiliary command)……………………………………………………………………………………….72 10.3 URL to
display the snapshot JPEG ……………………………………………………………………………………………………………….72 10.4
Video display URL …………………………………………………………………………………………………………………………………………..72
10.5 MJPEG video display URL on
Browser…………………………………………………………………………………………………………72 11 Technical data
………………………………………………………………………………………………………..73
11.1 Cybersecurity …………………………………………………………………………………………………………………………………………………..73
11.2 Video for Day/Night camera
…………………………………………………………………………………………………………………………73 11.3 Video for Thermal camera
……………………………………………………………………………………………………………………………. 73
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Instruction manual – English – EN
1 About this manual
Read all the documentation supplied carefully before installing and using this
product. Keep the manual in a convenient place for future reference.
1.1 Typographical conventions
CAUTION! Medium level hazard. This operation is very important for the system
to function properly. Please read the procedure described very carefully and
carry it out as instructed.
INFO Description of system specifications. We recommend reading this part
carefully in order to understand the subsequent stages.
2 Notes on copyright and information on trademarks
The mentioned names of products or companies are trademarks or registered
trademarks.
3 Warnings to upgrade the firmware
An indispensable prerequisite to upgrade the firmware to the current version
is that the product must have a version installed equal or higher than 2.2.10.
MNVFWEB4-4_2131_EN
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6
4 Product code and functionalities enabled
EN – English – Instruction manual
Based on the product version, all the functionalities illustrated in this manual may not be enabled. The following table outlines the functions available for each product code.
The functionalities not outlined in the table, but illustrated in the manual are enabled for all the products listed.
FUNCTIONALITY MATRIX Function
Horizontal and vertical movement Preset Tour Digital Input Management Digital Output Management Wiper control Wash system control Camera Day/Night Settings Thermal Video Camera Settings Radiometry Alarms Night Mode Spot illuminator Masking for PTZ Dynamic Masking Fixed Camera Masking Video analysis – VIDEOTEC ANALYTICS
MAXIMUS MMX
MAXIMUS MPX SERIES2
1
1
MAXIMUS MPXR SERIES2
MAXIMUS MPXT SERIES2
MAXIMUS MPXL SERIES2
1
1
MAXIMUS MVX
MAXIMUS MVXT
NVX
1
1
1
1
NTX
NXPTZ SERIES2
1
1
NXPTZR SERIES2
NXPTZT SERIES2
ULISSE COMPACT DELUX
ULISSE EVO
1
1
ULISSE EVO DUAL
ULISSE EVO THERMAL
Tab. 1 1 Consult the product code to check if the function is enabled.
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4.1 Dual vision products
Dual vision products are equipped with a Day/Night camera and a thermal
camera. The two cameras have different IP addresses and, as a result, two
different web interfaces.
For Dual Vision products, some PTZ parameters that are set on a camera’s web
interface page apply to both cameras. Similarly, some of the PTZ commands that
are sent from a camera’s web interface page apply to both cameras. In this
manual, these cases are indicated with the following warning note:
For Dual Vision products, the settings shown in this chapter are common to
both cameras. A set parameter or a command sent on the thermal camera web
interface page also affects the Day / Night camera and vice versa.
5 Notes on copyright and information on trademarks
The mentioned names of products or companies are trademarks or registered
trademarks.
Microsoft Edge®, Windows XP®, Windows Vista®, Windows 7®, Windows 8®, Windows
10® are the property of Microsoft Corporation.
INTEL® CoreTM 2 Duo, INTEL® CoreTM 2 Quad, INTEL® Xeon® are the property of
Intel Corporation.
ONVIF® is a trademark of Onvif, Inc.
6 Third party licences
This chapter provides the following information, in compliance with the
licences of the software packages included:
· This software is based in part on the work of the Independent JPEG Group.
· This product includes software developed by Greg Roelofs and contributors
for the book, “PNG: The Definitive Guide,” published by O’Reilly and
Associates.
· This product includes software developed by the OpenSSL Project for use in
the OpenSSL Toolkit (http://www.openssl.org/).
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EN – English – Instruction manual
7 Note on data security
7.1 Introduction
VIDEOTEC S.p.A. manufactures video surveillance products exclusively for
professional use. VIDEOTEC S.p.A. products can be used in technical contexts
and for wide-ranging purposes, from controlling the security of citizens to
monitoring product processes in risk areas to application for environmental
monitoring and protection.
Some of these uses can involve processing of personal data by those using a
video surveillance system within which VIDEOTEC S.p.A. products are installed
and integrated.
The wide-ranging application scenarios prevent definition of standard IT
safety measures set by default on products compatible with any use scenario
and technical context. In particular, certain security measures (including
measures composing a sector standard in devices intended for non-professional
use) may be incompatible or unnecessary in particular technical contexts or,
on the contrary, insufficient.
It is therefore indispensable that risk analysis linked to IT security
aspects, also in relation to applicable local standards on personal data
protection, are performed by specialist staff responsible for end use of the
product.
The user of the product therefore, availing of specialist staff in IT
security, has to decide under his/ her exclusive responsibility whether to:
· Enable certain or all security functionalities offered by the VIDEOTEC
S.p.A. device;
· Implement different security measures at system level;
· Combine the two options.
The aforementioned choice should be made based on the specific technical and
legislative context, as well as the type of data processed using the video
surveillance system.
Given the type of technical contexts within which VIDEOTEC S.p.A. devices are
typically used, it is not possible or would it ever be advisable that the
firmware for these devices automatically upgrades via the Internet. Over time,
VIDEOTEC S.p.A. could release security upgrades for its devices, which should
be manually installed by the user, always by specialist staff, if certain or
all the security functionalities for the device provided are enabled. The user
is obliged to be updated viaVIDEOTEC S.p.A. institutional communication
channels on the availability of firmware security upgrades.
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7.2 Security functionalities which can be enabled in the product
7.2.1 Authentication credentials
For the versions compliant with the ONVIF Q profile, on first use the device
is not protected by default credentials. You can access all the device
functionalities (including video configuration and streaming) without any
authentication. This mode is intended for use on private/protected networks
which are only accessible to reliable devices and staff, with the sole purpose
of allowing installation of the product also in particular or difficult
environmental conditions, or using the product itself in limited and
controlled technical contexts without external or remote access and/or without
the processing of personal and/or confidential data.
For the versions NON-compliant with the ONVIF Q profile, on first use the
device asks for compulsory creation of a first user, to then access the device
you must always provide the user’s credentials (name and password).
If the user is not created, it will not be possible to access any of the
device functionalities (including configuration and video streaming).
When the first user is created, to access the device, it is compulsory to
always provide the user’s credentials (name and password). Multiple users can
be created, with three different access levels.
For the versions compliant with the ONVIF Q profile, the decision to use the
device in protected or unprotected mode, as well as implementation of all
further security measures both at IT system level and organisational level,
must be carried out under the exclusive responsibility of the user on adequate
risk analysis by specialist staff.
7.2.2 Encryption
By default, the product implements the encryption function via HTTPS with
self-signed certificates for configuration via web interface and for
configuration via ONVIF protocol and for streaming via RTSP/RTP/ HTTPS/TCP.
Using the web interface or using ONVIF protocol, it is equally possible to
upload on the product one or more certificates issued by the CA (Certification
Authority) authorised to guarantee better safety and confidentiality in
communication. Video streaming via RTSP/RTP/UDP, RTSP/RTP/ TCP and
RTSP/RTP/HTTP/TCP is not protected by encryption as outlined by ONVIF
specifications; instead, video streaming via RTSP/RTP/HTTPS/TCP is protected
by encryption. If the product is used with self-signed certificates or if it
is only used through protocol without encryption and you need to guarantee the
confidentiality of the data, it can be exclusively used on private/protected
networks or remotely via VPN or equivalent technology, and however by
implementing all the technical and organisational measures for the case. The
provisions on the types of networks and the remote connections to implement to
guarantee data confidentiality, as above, expire the moment in which the
product is used exclusively for encrypted communication protocol (HTTPS and
RTSP/RTP/HTTPS/TCP) with certificates issued by the authorised CA.
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8 Default IP address
Use an ONVIF compliant VMS or a network sniffer to find the IP address of the
device (IP scan utility).
8.1 Internet Protocol version 4 (IPv4)
The unit is configured to obtain an IP address from a DHCP server.
The IP address acquired via DHCP is visible in the DHCP server log file.
If the DHCP server is not available, the unit automatically configures itself
with a self-generated IP address in the 169.254.x.x/16 subnet. Configuring the
IP address of the PC as belonging to the same subnet (example: IP address:
169.254.1.1, subnet mask: 255.255.0.0).
8.2 Internet Protocol version 6 (IPv6)
The unit is configured to obtain an IP address using Router Advertisement
protocol. In any case, the unit automatically also configures a self-generated
IP address with Scope:Link.
9 Description of the functionalities
Browsers supported (the latest version): Microsoft Edge, Google Chrome,
Mozilla Firefox.
9.1 First access to the web pages
The first operation in configuring the device consists in connecting to the
web interface.
To access the web interface of the product, simply use a browser to connect to
http://ip_address.
For versions of the product compliant with the ONVIF Q profile on first
access, the Home page will be displayed.
9.2 Home Page
Based on the product version, all the functionalities may not be enabled. The
menus dynamically auto-configure based on the product model and configuration
parameters. The product control interface is displayed if login is successful.
The Home page displays the snapshot of the camera and allows you to check the
lenses and manage movements.
Fig. 1 Day/Night camera
Fig. 2 Thermal camera
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9.2.1 Video Snapshot
This area displays the preview of the live video transmitted by the unit. The
snapshot resolution and its frame-rate are fixed and differ from the actual
characteristics of the video stream.
To view the video stream quality, it is necessary to use a VMS or check the
relative chapter (9.19 Encoder Parameters Page, page 44).
9.2.3 Horizontal and vertical movement
For Dual Vision products, the settings shown in this chapter are common to
both cameras. A set parameter or a command sent on the thermal camera web
interface page also affects the Day / Night camera and vice versa.
The virtual keyboard allows you to move the unit. Use the drop-down menu under
the virtual keyboard to set the speed.
Fig. 3
9.2.2 Operative mode
Fig. 4
Indicates the operating mode of the camera. · Patrolling: The device is
running a patrol. · Washing: The device is running the cleaning
procedure. · Video Analytics: The device is in video analysis
mode.
Fig. 5
To move the unit, you can also click with the mouse directly on the snapshot
in the desired direction.
Fig. 6
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9.2.4 Lens control
· Zoom Wide/Zoom Tele
Fig. 7
To zoom, other than using the Wide Zoom and Tele Zoom keys, you can also use
the scroll wheel of the mouse, positioned with the mouse inside the snapshot.
· Focus Near/Autofocus/Focus Far
9.2.6 Control of Video Analytics mode
The Video Analytics page allows you to configure in detail the control logic
of video analysis (9.12 Video Analytics page, page 35).
· Analytics Start: Start the Video Analytics mode from the current position of
the PTZ. If the PTZ receives movement commands (e.g. pan, tilt, zoom, patrol),
the device immediately exits Video Analytics mode to execute the received
command.
· Analytics Stop: Stop Video Analytics mode.
· Analytics Reset: Bring the PTZ to the video analysis position it started
from and reset any active motion detection alarms.
Fig. 8
9.2.5 Day/Night mode control
· Day Mode: The Day Mode inserts the IR filter of the camera and/or switches
off the spotlight.
· Auto Mode: The Automatic Mode, based on the brightness present, delegates to
the camera switching in Day / Night mode
· Night Mode: The Night Mode removes the IR filter of the camera and/or
switches on the spotlight.
On the Night Mode page, you can configure the control logic in detail of the
Day/Night Mode, and the behaviour of the IR filter and the spotlight. (9.18
Night Mode Page, page 43).
Fig. 9
The mode selected is indicated by a small, green ball on the top, right-hand
corner. The mode selected is maintained also in the event the unit is switched
off.
Fig. 11
· Video analysis alarms: Indicates the status of the alarms in video analysis.
The ONVIF event tns1:VideoSource/MotionAlarm is sent. Grey: video analysis
off. Green: no alarm. Red: video analysis alarm on.
Fig. 12
· Tampering alarm on: The video analysis alarms space displays in the event of
tampering with the device (sudden change of entire scene) (the ONVIF event
tns1:VideoSource/GlobalSceneChange/ ImagingService).
Fig. 13
Fig. 10
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9.2.7 Metadata display
When the Video Analytics mode is enabled, the metadata are displayed on the
snapshot of the HOME page (Fig. 14, page 13).
Fig. 14
The targets in motion detected are identified using the panels with the
following colours: · Red: Alarm target. If one or more rules are defined
when the target violates a rule. If there are no rules defined, the target is
in motion. The trail behind the target represents the positions of the target
in the previous frames. · Orange:: The target is about to violate a rule and
become an alarm (applied if one or more rules are defined). · White: The
target which is not violating any rule, is potentially also obscure by a
detection masking (applied if one or more rules are defined).
In the event of tampering, a purple square is displayed on the image on the
top left corner.
If the Video Analytics mode is enabled on a preset for which one or more rules
were defined, then the snapshot will display these rules:
· “Line” rule: One or more segments in blue.
· “Area” rule: Blue polygon.
· Detection mask: Grey polygon.
If the Video Analytics mode is enabled on a calibrated preset, then the
snapshot displays:
· Horizon: Green horizontal line over the entire width of the image over which
the targets are ignored.
· Target dimensions: Width and height in centimetres on the upper side of the
targets rectangle.
If TRACKING is enabled (PTZ unit only) then the alarm target is followed and
identified by:
· A red viewfinder.
· A red viewfinder with increasing clarity (up to white) when the target is no
longer visible with adequate confidence.
Fig. 16
Fig. 15
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9.2.8 Wiper and wash system control
In products with video analysis: detection is temporarily interrupted on
activation of the wiper and the wash system, autotracking is temporarily
interrupted on activation of the wash system.
· Wiper/Wash System: The wash system must be enabled in order to use it (9.14
Washer System Page, page 38). If a washer pump with tank was installed and
configured, the command activates the wiper and the wash procedure.
Fig. 17
9.2.9 Home management
For Dual Vision products, the settings shown in this chapter are common to
both cameras. A set parameter or a command sent on the thermal camera web
interface page also affects the Day / Night camera and vice versa.
· Back to Home/Save Home position: The Home position does not coincide with
any Preset. The Home position is a stand-alone setting that can be updated but
can not be deleted.
9.2.10 Preset Management
For Dual Vision products, the settings shown in this chapter are common to
both cameras. A set parameter or a command sent on the thermal camera web
interface page also affects the Day / Night camera and vice versa.
In products with video analysis: if rules and/or calibration are configured in
the home position or on a preset, then the home position or the preset cannot
be overwritten without firstly explicitly removing the rules and calibration
(9.13.2 Calibration, page 37 and 9.28 Tools Page, page 70).
· Scan Preset/Set Preset/Remove Preset
Fig. 19
Fig. 18
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· Start Preset Tour: To start a Preset Tour, at least one Preset Tour must be defined and at least one Preset position must be saved. The speed of movement and waiting times can be configured on the Preset Tour page. Currently, a single Preset Tour called Patrol is available.
9.2.12 Flat Field Correction activation
· Perform FFC (Flat Field Correction): Manually commands execution of the Flat
Field Correction (FFC).
Fig. 20
For further information refer to the relative chapter (9.16 Preset Tour Page,
page 40).
9.2.11 Digital Inputs/Outputs Control
You can view the status of the inputs and control the status of the outputs.
Fig. 22
9.2.13 Device control using the keyboard
It is possible to control the device via the PC keyboard using the keys
indicated in the diagram.
Preset 1
Home
Zoom
Preset 9
Pan & Tilt Speed
Fig. 21
Fig. 23
Pan & Tilt Movement
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9.2.14 Warning Bar
A red bar may appear with a warning message under the snapshot of the video.
The following messages may be displayed:
· WARNING: DEICING IN PROGRESS… Deicing procedure in progress, wait for the
procedure to finish.
· WARNING: FIRMWARE UPGRADE IN PROGRESS… A firmware upgrade is in progress;
wait for the upgrade to end.
· WARNING: HARD RESET ACTIVATED The Hard Reset mechanical selector/button is
enabled; it must be disabled.
· WARNING: HARD RESET DONE. POWER OFF AND ON THE DEVICE The device was reset
to its original default settings; its re-activation is indispensable.
· WARNING: CALIBRATION IN PROGRESS… A re-calibration procedure of the Pan and
Tilt axes is in progress; wait for the procedure to end.
· WARNING: UPGRADING VIDEO ANALYTICS FIRMWARE A firmware upgrade of the video
analytics board is in progress; wait for the upgrade to end.
· FIRMWARE VERSION INCOMPATIBILITY: PLEASE CHECK VIDEO ANALYTICS FIRMWARE
Incompatibility between the firmware version of the video encoder board and
the video analytics board; you are advised to install the latest version
available of the firmware on both boards.
· FIRMWARE VERSION INCOMPATIBILITY: PLEASE CHECK VIDEO ENCODER FIRMWARE
Incompatibility between the firmware version of the video encoder board and
the video analytics board; you are advised to install the latest version
available of the firmware on both boards.
For any other message not listed above, immediately contact VIDEOTEC technical
support.
9.3 Device Parameters Page
For Dual Vision products, the settings shown in this chapter are common to
both cameras. A set parameter or a command sent on the thermal camera web
interface page also affects the Day / Night camera and vice versa. Based on
the product version, all the functionalities may not be enabled. The menu
dynamically auto-configures based on the product model. From menu entry Device
Parameters it is possible to set the name of the device and view other
additional information.
Fig. 24
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9.4 Camera Day/Night Settings Page
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
On the menu item, it is possible to set the camera parameters.
Some fields are displayed dynamically, depending on the system configuration.
· Zoom: Configuration parameters.
· Digital Zoom: It allows enabling or disabling the digital zoom. (in addition
to the optical).
· Focus: Configuration parameters.
· Focus mode:
· MANUAL
· AUTO – PTZ TRIGGER: at the end of each movement, the camera auto-focuses the
image.
· AUTO – FULL AUTO: image focussing is always on.
· Autofocus Sensitivity:
· NORMAL: reaches the highest focus speed quickly (use this when shooting a
subject that moves frequently).
· LOW: improves the stability of the focus.
· Exposure: Configuration parameters.
· Exposure Mode: The parameter configures the exposure algorithm. The relevant
control fields are displayed based on the mode selected. The effect of
flickering sometimes present in artificial lighting can be eliminated with the
Exposure Mode – INDOOR (50 or 60Hz).
· High Sensitivity: With this mode, the maximum gain increases to give
brighter images, even in dark scenes.
· Brightness: The parameter sets the brightness value using the iris-gain pair
· Backlight Compensation: Enables the Backlight Compensation function. It
improves vision of any dark zone in the image.
· Iris: The parameter sets the Iris.
· Shutter (s): The parameter sets the speed of the shutter.
· Auto Slowshutter: If set to On, the speed of the shutter slows down when
light decreases. The minimum value is set by the Slowshutter Level (s)
parameter.
· Gain Limit: The parameter defines the maximum gain value for the exposure
algorithm.
· Exposure Compensation: The parameter enables correction of scene brightness.
· Compensation Value: The parameter defines the correction of scene brightness
value.
· Minimum Shutter speed (s): The parameter defines the minimum value for the
speed of the shutter.
· Slowshutter Level (s): The parameter defines the minimum value for the speed
of the shutter when Auto Slowshutter is set to On.
· Gain (dB): The parameter defines the Gain value.
· White Balance: Configuration parameters.
· Mode: White Balance has the following modes .
· AUTO [2500K-7500K]: This mode computes the white balance value output using
colour information from the entire screen. It outputs the appropriate value
using the colour temperature radiating from a black subject based on a range
of values from 2500K to 7500K.
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· INDOOR [3200K]: 3200K Base Mode
· OUTDOOR [5800K]: 5800K Base Mode
· AUTO TRACING [2000K-10000K]: Like AUTO, but on a wide range of values from
2000K to 10000K.
· MANUAL: This is a mode that enables you to manually set the control of Red
and Blue gain.
· OUTDOOR AUTO: This is an automatic white balance mode specifically for
outdoors. It allows you to capture images with natural white balance in the
morning and evening.
· SODIUM VAPOR LAMP AUTO: This is an automatic white balance mode that is
compatible with sodium vapour lamps.
· SODIUM VAPOR LAMP: This is a fixed white balance mode specifically for
sodium vapour lamps.
· SODIUM VAPOR LAMP OUTDOOR AUTO: This is an automatic white balance mode
specifically for outdoors, compatible with sodium vapour lamps.
· Wide Dynamic Range (WDR): Configuration parameters.
· Wide Dynamic Range: This parameter can activate some functions/algorithms to
improve the contrast between the luminous zones and the shadow zones.
· OFF: Camera captures one exposure and no improvement algorithm is active.
· ON: Camera activates an improvement algorithm.
· VISIBILITY ENHANCER ON: Camera only captures one exposure and activates the
VE algorithm.
· WDR ON + VISIBILITY ENHANCER ON: The camera captures the multiple exposure
and activates the VE algorithm.
· WDR Level: The parameter specifies the level of compensation.
· Light Level: The parameter enables the average threshold of scene
brightness.
· Brightness Compensation Selection: The parameter sets the area in which
brightness compensation is executed.
· Compensation Level: The parameter specifies the compensation level applied
to the selected zone.
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· Advanced Settings: Configuration parameters.
· Noise Reduction 2D: The parameter specifies the level (in 2D mode) of noise
reduction to provide clearer images.
· Noise Reduction 3D: The parameter specifies the level (in 3D mode) of noise
reduction to provide clearer images.
· Sharpness: The parameter sets the level of contour sharpening.
· Defog Mode: The parameter enables the function that enables improved vision
when the area around the subject is foggy or with little contrast, showing the
subject more sharply.
· E-Flip Mode: Enables image flipping.
· Options: Configuration parameters.
· Saturation: The parameter sets the fullness value of the colours of the
image.
· Contrast: The parameter sets the contrast value of the image.
· Brightness: The parameter sets the brightness value of the image.
· Noise Reduction: The parameter specifies the level and consequential mode
(2D, 3D) of noise reduction.
· High Resolution: The parameter activates enhancement of the contours and
produces more defined images.
· Sharpness: The parameter sets the level of contour sharpening.
· Defog Mode: The parameter enables the function that enables improved vision
when the area around the subject is foggy or with little contrast, showing the
subject more sharply.
· Highlight Correction: The parameter enables the masking function of the
overexposed areas.
· Masking Level Overexposure Correction: The parameter defines the brightness
level beyond which masking is applied.
· E-Flip Mode: Enables image flipping.
· Image Stabilizer: The parameter enables the electronic stabiliser of the
image.
Camera Default: The button resets the camera settings to default
configuration.
Fig. 25
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9.5 Thermal Camera Settings Page
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
On the menu item, it is possible to set the camera parameters.
Some fields are displayed dynamically, depending on the system configuration.
· Zoom: Configuration parameters.
· Digital Zoom: Enables or disables digital zoom. The maximum zoom reachable
depends on the resolution of the camera installed.
· Video: Configuration parameters.
· Color Palette: Sets the colour type of the image displayed by the thermal
camera.
· E-Flip Mode: Enables image flipping.
· FFC Warning (Frames): Sets the display duration on screen of a coloured
square on the top right when a FFC is about to execute. The time range is
expressed in frames (1s= 30frames).
· Spot Meter: Configuration parameters.
· Mode: Defines the unit of measurement of the temperature detected.
· Digital Meter: Enables display of the temperature measured.
· Thermometer: Enables display of the relevant symbol on the display.
· Thermal Profile: Configuration parameters.
· Thermal Profile: Allows loading one of the default configurations of the
camera or enable the advanced configurations (CUSTOM).
· STANDARD: Sets the default configuration of the thermal camera.
· LOW CONTRAST: Sets the operating mode designed for low contrast scenes (for
example video recordings of sea or sky).
· INDOOR: Sets the operating mode designed for indoor surroundings.
· OUTDOOR: Sets the operating mode designed for outdoor surroundings.
· FACE DEFINITION: Sets the operating mode designed for facial recognition.
· CUSTOM: Allows manual configuration of the thermal camera. Selecting this
configuration, the parameters are enabled for advanced configurations.
· Gain: Configuration parameters.
· Gain Mode: Allows selection of the gain used by the thermal camera.
· HIGH: The camera always works in high gain. This setting was designed to
maximise contrast and is particularly indicated for applications that execute
video analysis of images.
· LOW: The camera always works in low gain. This setting increases the dynamic
range of the image and decreases contrast. It is indicated for scenes with
very hot elements, because the measurable temperature range increases.
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· AUTOMATIC (not valid for ULISSE EVO DUAL): This setting allows the camera to
switch between High and Low mode, based on the type of image currently
displayed. The four parameters High-to-Low Switch and Low-to-High Switch
described below are used to adjust behaviour of this mode.
· High-to-Low Switch Temperature Threshold: Sets the temperature threshold (in
°C) used by the parameter High-to-Low Switch Percent to force switching in
Gain Mode Low.
· High-to-Low Switch Percent: Sets the pixel percentage over which switching
takes place in Gain Mode Low.
· Low-to-High Switch Temperature Threshold: Sets the temperature threshold (in
°C) used by the parameter Low-to-High Switch Percent to force switching in
Gain Mode High.
· Low-to-High Switch Percent: Sets the pixel percentage over which switching
takes place in Gain Mode High.
· AUTOMATIC (valid only for ULISSE EVO DUAL): The camera automatically
transitions between high-gain state and low-gain state based on scene
conditions and userspecified parameters (when operating in Automatic Gain
Mode, the Automatic FFC is forced ENABLED).
· High-to-Low Intensity Threshold: In conjunction with the parameter High-
toLow Population Threshold, the High-toLow Intensity Threshold parameter
defines the scene conditions which result in the camera determining an
automatic switch from high-gain state to low-gain state. The High-to-Low
Intensity Threshold represents the intensity above which a pixel is scored as
being one which would benefit from transition to low-gain state.
· High-to-Low Population Threshold: In conjunction with the parameter Highto-
Low Intensity Threshold, the Highto-Low Population defines the scene
conditions which result in an automatic change from high-gain state to low-
gain state. It represents the percentage of the pixel population which must
have intensity exceeding High-to-Low Intensity Threshold for a desired gain-
state change to be signaled.
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· Low-to-High Population Threshold: In conjunction with the Hysteresis and
Highto-Low Intensity Threshold parameters, Low-to-High Population Threshold
defines the scene conditions which result in the camera determining an
automatic switch from low-gain state to highgain state. The Low-to-High
Population Threshold represents the percentage of the pixel population which
must have intensity below the Low-to-High Intensity Threshold for a desired
gain-state change to be signaled.
· Hysteresis: In conjunction with the Highto-Low Intensity Threshold
parameter, Hysteresis affects the calculated camera variable Low-to-High
Intensity Threshold.
· Flat Field Correction (FFC): The thermal camera has an internal mechanism to
periodically improve the quality of the images: this is Flat Field Correction.
· Automatic FFC (not valid for ULISSE EVO DUAL): When FFC is automatic, the
camera executes a FFC after a given time range or a given temperature
variation. Vice versa, when FFC is in manual mode, the FFC operations are
executed at the user’s request (9.2.12 Flat Field Correction activation, page
15). You are advised to always use automatic correction.
· High Gain Interval: Time range (in frames) after which a FFC is executed.
· High Gain Temperature Delta: Temperature range (in 10x°C) after which a FFC
is executed.
· Low Gain Interval: Time range (in frames) after which a FFC is executed.
· Low Gain Temperature Delta: Temperature range (in 10x°C) over which to
perform an FFC.
· Automatic FFC (valid only for ULISSE EVO DUAL): if Automatic FFC is ENABLED,
the camera performs FFC automatically. In particular, FFC events are triggered
by: -Start-up. -Expiration of internal timer with period specified by FFC
Period (s). -Temperature change beyond FFC temp delta (°C).
· FFC Integration period: During each FFC event, the camera automatically
integrates n frames of sensor data to generate the resulting correction term.
FFC Integration Period specifies the value of n.
· FFC period (s): It defines the maximum elapsed time between automatic FFC
events.
· FFC temp delta (°C): It defines the maximum temperature change of the FPA
(Focal Plane Array) between automatic FFC events.
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· Isotherm: Using the configuration parameters, it is possible to enable a
special colour for objects included within a certain temperature range set.
· Isotherm Enable: Enables or disables the Isotherm function.
· Isotherm Mode: Selects the set temperature range display mode (in
percentages or degrees Celsius).
· Lower/Middle/Upper Threshold: The parameters define the lower/intermediate/
upper limits of the Isotherm function.
· Digital Data Enhancement (DDE): Configuration parameters for the algorithm
Digital Data Enhancement.
· DDE Mode: The DDE algorithm can be used to improve the details of the image
and eliminate noise. Based on the mode selected (Dynamic or Manual), the
relevant parameters will be displayed.
· DYNAMIC: The DDE parameters are automatically calculated based on the
content of the scene. DDE Index is the only control parameter.
· DDE Index: If the value of this parameter is 0, no image processing will be
carried out; values under 0 filter noise; values over 0 highlight the details
of the image.
· MANUAL: The DDE algorithm is manually configured by 3 parameters.
· DDE Gain: It represents the high frequency gain; with the value 0, DDE is
disabled.
· DDE Threshold: Represents the maximum size of the detail that is magnified.
· DDE Spatial Threshold: It represents the pre-filter threshold (smoothing
filter) applied to the signal.
· Automatic Gain Correction (AGC) (not valid for ULISSE EVO DUAL):
Configuration parameters.
· AGC Type: You can set from the menu the kind of automatic control (AGC Type)
for image optimisation.
· PLATEAU HISTOGRAM: The plateau equalization algorithm effects a nonlinear
transformation based on the image histogram. This is the default algorithm and
is recommended for the majority of the scenarios.
· AGC Region Size: Dimension of the region (centred, as a percentage) used to
calculate the AGC filter.
· Plateau Value: Sets the maximum number of pixels that can be contained in a
shade of grey.
· ITT MidPoint: Sets the mean point on a grey scale.
· Maximum Gain: Sets the AGC maximum gain.
· ACE Threshold: Sets the threshold for Active Contrast Enhancement (ACE). The
ACE adapts the contrast based on the temperature of the scene. Thresholds over
0 give higher contrast to hot scenes and less contrast to cold scenes;
thresholds under 0 give higher contrast to cold scenes and less contrast to
hot scenes.
· SSO Percent: Sets the Smart Scene Optimization (SSO) value. Defines the
percentage of the histogram which will be linearly mapped.
· Tail Rejection: Defines the pixel percentage which will be bypassed from the
outset by equalization.
· IIR Filter: Sets the IIR filter coefficient. The filter is used to define
the speed with which the AGC reacts to scene variations.
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· MANUAL: The Manual algorithm effects a linear transformation with an
inclination based exclusively on the indicated Contrast and Brightness values.
· IIR Filter: Sets the IIR filter coefficient. The filter is used to define
the speed with which the AGC reacts to scene variations.
· Contrast: Sets the image contrast level.
· Brightness: Sets the mean point on a grey scale.
· AUTO BRIGHT: The Auto-Bright algorithm is identical to the Manual algorithm
except for the brightness value that is updated automatically.
· IIR Filter: Sets the IIR filter coefficient. The filter is used to define
the speed with which the AGC reacts to scene variations.
· Contrast: Sets the image contrast level.
· ONCE BRIGHT: The Once Bright algorithm is identical to the Auto Bright
algorithm except for the offset of the linear transformation. The offset is
only calculated the moment in which the algorithm is selected, and is not
updated dynamically.
· IIR Filter: Sets the IIR filter coefficient. The filter is used to define
the speed with which the AGC reacts to scene variations.
· Contrast: Sets the image contrast level.
· Brightness Bias: Sets the brightness compensation.
· LINEAR: The linear equalization algorithm performs a linear transformation
based on image histogram.
· AGC Region Size: Size (centred and a percentage) of the region relevant to
application of the AGC filter.
· ITT MidPoint: Sets the mean point on a grey scale.
· Tail Rejection: Defines the percentage of pixels that are a priori excluded
from equalization.
· IIR Filter: Sets the IIR filter coefficient. The filter is used to define
the speed with which the AGC reacts to scene variations.
· INFORMATION-BASED: The InformationBased algorithms retain more grey tones
for the portions of the image with more information, assigning fewer grey
tones to the portions of the image with less information content. The
Information-Based algorithms exclude the pixels from the histogram
equalization process if their value is below the information threshold.
· Information Threshold: Defines the difference between close pixels used to
determine whether or not the image contains information.
· INFORMATION-BASED EQUALIZATION: The Information-Based Equalization algorithm
include all the pixels in the histogram equalization process regardless of the
scene information content. The algorithm weighs each pixel according to the
value of the information threshold.
· Information Threshold: Defines the difference between close pixels used to
determine whether or not the image contains information.
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· Automatic Gain Correction (AGC) (valid only for ULISSE EVO DUAL): Is the
algorithm that equalizes the thermal histogram; it is highly customizable via
a large number of parameters, intended to allocate the grayshades more
optimally according to user preferences. Configuration parameters.
· Tail Rejection: Determines what percentage of histogram outliers to ignore.
For example, if the value is set to 2%, the mapping function ignores the
bottom 2% of the histogram as well as the top 2%, optimizing the mapping
function for the central 96%.
· Maximum Gain: Modifying this parameter, you can enhance the displayed
contrast, and also make image noise more obvious; with a low value, the image
results more pleasing to the eye in that they appear less grainy. The optimal
value of this parameter varies with application and personal preference..
· Damping Factor: Is a temporal filter which can limit how quickly the AGC can
react to a change in scene conditions.
· Adaptative Contrast Enhancement: ACE provides contrast adjustment dependent
on relative scene temperature. In white-hot polarity, a value less than one
darkens the image, increasing contrast in hotter scene content, while a value
greater than one will do the opposite.
· Plateau Value: Sets the maximum number of pixels that can be contained in a
shade of grey.
· Linear Percent: A higher value leads to more “separation” in gray shades
between the hot object and the cold background. The optimal value of this
parameter varies with application and personal preference..
· Digital Detail Enhancement: Decreasing or increasing the value softens or
accentuates image details.
· Smoothing Factor: It is used to reduce noise or to produce a less pixelated
image.
· Information-Based Equalization Mode: The Information-Based Equalization Mode
algorithm include all the pixels in the histogram equalization process
regardless of the scene information content. The algorithm weighs each pixel
according to the value of the information threshold. When InformationBased
Equalisation Mode is enabled, it increases the contrast between the background
and objects in the centre of the scene.
Camera Default: The button resets the camera settings to default
configuration.
Fig. 26
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9.6 Masking Page
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
9.6.1 Masking for PTZ Page
With Masking enabled, correct operation of automatic tracking is not
guaranteed, since the person and/or objects to monitor may not be visible.
The Masking menu allows you to define the areas that will be masked on the
video. The virtual keyboard allows you to move the unit. Use the drop-down
menu under the virtual keyboard to set the speed. The Patrol, Scan Preset and
Home buttons are used to activate the relative functions. · Selecting the Mask
· Mask Stop Position: Configures the mask stop position.
Fig. 30
· Enables Mask/Disables Mask/Positions in the Centre of the Mask/Delete all
Masks
Fig. 31
Fig. 27
· Masking Mode: During PTZ movement, you can black out certain portions of the
video. On reaching the set position the entire video will be obscured. Two
masking modes are available. The PAN-TILT mode activates the mask based on
both the coordinates of the horizontal and vertical axes. The PAN mode
activates the mask based solely on the horizontal axis coordinates.
Fig. 32
Fig. 28
· Mask Start Position: Configures the mask start position.
Fig. 33
Fig. 29
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9.6.2 Dynamic Masking Page for PTZ
With Masking enabled, correct operation of automatic tracking is not
guaranteed, since the person and/or objects to monitor may not be visible.
The Masking menu allows you to define the areas that will be masked on the
video.
The virtual keyboard allows you to move the unit. Use the drop-down menu under
the virtual keyboard to set the speed.
The Patrol, Scan Preset and Home buttons are used to activate the relative
functions.
· Selecting the Mask
· Sets the masks colour: Use the colour palette to select the colour of the
masks (the colour selected will be valid for all the masks).
Fig. 36
· Masking mode based on Zoom: The masks can be set as visible only if the
current zoom factor is higher than the zoom factor in which the masks were
drawn. If the current zoom is less, the masks are not visible.
Fig. 34
· Masking Mode: You can define rectangular masks (up to a maximum of 24, with
a maximum of 8 visible) that obscure part of the screen. To draw the mask
selected, go to the centre of the area you want to mask, then use the mouse to
draw the mask.
· Enables Mask/Disables Mask/Positions in the Centre of the Mask/Delete all
Masks
Fig. 37
Fig. 35
Fig. 38
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9.6.3 Masking page for fixed cameras
The Masking menu allows you to define the areas that will be masked on the
video.
· Selecting the Mask
· Masking mode based on Zoom: The masks can be set as visible only if the current zoom factor is higher than the zoom factor in which the masks were drawn. If the current zoom is less, the masks are not visible.
Fig. 39
· Masking Mode: It is possible to define rectangular masks (up to a maximum of
8) to obscure parts of the screen. To draw a mask, click the left mouse button
and hold it to define the area to be masked.
· Enable Mask/Disable Mask/Delete all Masks
Fig. 41
Fig. 40
Fig. 42
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9.7 Radiometry Rules Page
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
The device can be configured so that it independently generates a Radiometry
Alarm and/ or a Radiometry Warning through the Events ONVIF:
tns1:VideoSource/RadiometryAlarm false|true and
tns1:VideoSource/RadiometryWarning false|true, respectively.
The event can be sent when:
· TEMPERATURE IS BELOW a settable value.
· TEMPERATURE IS ABOVE a settable value.
· TEMPERATURE IS BETWEEN two settable values.
· TEMPERATURE OUTSIDE two settable values.
In the advanced Settings section, certain parameters can be edited that apply
to all the regions/rules:
· Thermal alarm persistence interval (s): The condition that generates the
Radiometry Event must persist for the entire duration of this time.
· Hold Preset Tour: A possible Preset Tour in progress can be put on hold in
the event of a Radiometry Alarm and/or Warning.
· Region display color: The active regions, relating to the current Preset,
can be displayed with rectangles in the colour specified by this parameter.
· Region numbering: The regions associated with each Preset are identifiable
using a number from 1 to 5, which can be displayed or hidden by editing this
parameter. On the PTZ cameras, up to 5 ROI (Region Of Interest) can be set for
each Preset. On the fixed cameras, up to 5 ROI (Region Of Interest) can be
set.
· Show Temperatures in OSD: The temperature of the regions relating to the
current Preset can also be displayed in the text line of the OSD. The minimum,
average and maximum temperatures are displayed for a single ROI, only the
average temperature is displayed for multiple ROI.
· Time ONVIF Event Send Temperature (min): Send frequency of ONVIF Analytics
“TemperatureReading” Event, which contains the temperature at the centre of
the image or the temperature of the ROI relating to the current preset
position (depending on context).
Fig. 43
In the event of a Radiometric Alarm and/or Radiometric Warning generated in a
region, an A (Alarm) and/or a W (Warning) is respectively displayed on the top
left in the rectangle that defines the region of interest.
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For the fixed cameras, in the version with the thermal camera not equipped
with Advanced Radiometry, the TEMPERATURE of the rules as above is determined
by the temperature detected at the centre of the square image.
For the PTZ units, in the version with thermal camera not equipped with
Advanced Radiometry, the TEMPERATURE of the rules as above is determined by
the temperature detected at the centre of the square image; the radiometric
rules for radiometry alarm or warning generation can differ for the Home
position and each Pan/Tilt position associated with the Presets saved.
For the fixed cameras, in the thermal camera version equipped with Advanced
Radiometry, the TEMPERATURE of the rules as above can be selected from the
minimum/average/maximum temperature detected inside a rectangular region
configurable on the square image.
For the PTZ unit, in the thermal camera version equipped with Advanced
Radiometry, the TEMPERATURE of the rules as above can be selected from the
minimum/average/maximum temperature detected within a rectangular region
configurable on the square image; the regions and the radiometric rules in
question can differ for the Home position and each Pan/Tilt position
associated with the Presets saved. For cameras with Advanced Radiometry, you
can set a maximum of five distinct regions and relevant radiometric alarm
and/or warning conditions for each HOME Pan/Tilt position or the saved
Presets.
· Save the Rule/ Delete the Rule/Set the default region
Fig. 44
Fig. 45
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9.8 Network Page
For the device to operate correctly, using the NTP server, the date and time
of the internal clock must be synchronised with those of the associated system
(VMS/PC/ SOFTWARE/etc.).
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
In the menu item, you can change the product network setting and decide which
mechanisms should be enabled to automatically identify the local network
devices.
· IPv4: You can enable/disable/configure the internet protocol IPv4. It is
possible to decide whether the device requires an address assigned statically,
dynamically with DHCP or selfgenerated.
· IPv6: You can enable/disable/configure the internet protocol IPv6. You can
decide whether the device must have an address assigned statically,
dynamically with DHCP or Router Advertisement.
· DNS: An automatic search is possible of the DNS or manually configure two
DNS.
· NTP Server: You can specify whether the device should synchronise with an
external NTP (Network Time Protocol) server.
· DISABLED: Select this option if you do not wish to synchronise date and time
of the device.
· STATIC: Select this option if you wish to synchronise date and time of the
device with those of the NTP (Network Time Protocol) server specified by the
static address.
· DHCP: Select this option if you want to synchronise the date and time of the
device with those of a NTP (Network Time Protocol) server indicated by the
DHCP server.
· Accept Untrusted NTP Server: If the parameter is active, the device accepts
untrusted servers and networks.
Fig. 46
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9.8.1 Protocols Page (Network)
For the device to operate correctly, using the NTP server, the date and time
of the internal clock must be synchronised with those of the associated system
(VMS/PC/ SOFTWARE/etc.).
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
In the menu item, you can change the product network setting and decide which
mechanisms should be enabled to automatically identify the local network
devices.
· Protocols: Configuration parameters.
· HTTP protocol: If the parameter is enabled, the device supports HTTP
protocol on port 80.
· HTTPS protocol: If the parameter is enabled, the device supports HTTPS
protocol on port 443.
· RTSP protocol: RTSP (Real Time Streaming Protocol) can be enabled/disabled.
· Streaming Authentication: Enables or disables RTSP authentication. If the
parameter is enabled, you need to provide a valid username and password to
obtain the video flows from the device.
· ONVIF Media 2: It is possible to enable/disable Media 2 and, by extension,
Profile T. If the device has the Video Analytics board installed, you are
advised to enable Media 2 to allow export of the Metadata towards VMS which
support it (to display the Bounding Boxes).
· WS Discovery: If enabled, the device can be automatically identified on
line.
· QoS: The device allows configuration of the Quality of Service (QoS)
options, to ensure greater priority to its streaming packages and data sent on
line. Two different DSCP values of QoS (from 0 to 63) can be configured: one
for Video Streaming and the other for device management.
· Packet Rate Limits: You can limit the traffic inbound and outbound of the
device network interface. The function is used to prevent DoS Attacks. · Rate
limit enabled: Enables the Packet Rate Limits. · UDP packets rate limit: Sets
the maximum number of UDP packets permitted per second. The packets over this
speed will be eliminated. · UDP packets burst: Sets the maximum initial burst
of UDP packets. · TCP packets rate limit: Sets the maximum number of TCP
packets permitted per second. The packets over this speed will be eliminated.
· TCP packets burst: Sets the maximum initial burst of TCP packets. · HTTP
requests rate limit: Sets the maximum number of TCP requests permitted per
second. Requests over this limit will be eliminated. · HTTP requests burst:
Sets the maximum initial burst of HTTP requests.
Fig. 47
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9.8.2 SNMP Page (Network)
For the device to operate correctly, using the NTP server, the date and time
of the internal clock must be synchronised with those of the associated system
(VMS/PC/ SOFTWARE/etc.).
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
In the menu item, you can change the product network setting and decide which
mechanisms should be enabled to automatically identify the local network
devices.
· SNMP: Configuration parameters.
· SNMP: SNMP (Simple Network Management Protocol) can be enabled/disabled.
· NTCIP protocol: NTCIP (National TransportationCommunications for Intelligent
Transportation System Protocol) can be enabled/disabled; only if SNMP version
applies SNMPv1.
· SNMP version: The SNMP version to be used can be chosen from SNMPv1, SNMPv2c
and SNMPv3. All the relevant parameters for properly configuring the SNMP
protocol will appear, depending on the version chosen.
Some of the Traps available, even though enabled, are only sent if the
relevant functionality is enabled.
· Traps: In this section, you can enable sending one by one of the individual
Traps available..
Fig. 48
9.8.3 Date and Time Page (Network)
In the menu item, you can change the date and time setting of the product. ·
Date & Time: Configuration parameters.
· Time Zone: The time zone can be set for synchronisation of the device.
· Daylight Saving Time: You can enable or disable daylight saving time.
· Set Date/Time from PC: This allows you to synchronise the date and time of
the product with that of the PC that you are using.
Fig. 49
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9.9 Users Page
For Dual Vision products, the settings shown in this chapter are common to
both cameras. A set parameter or a command sent on the thermal camera web
interface page also affects the Day / Night camera and vice versa.
On the menu item, the users who can access the device can be administered. The
Administrator type users can access complete configuration of the device,
while the Operator and User type users have limited access to the management
pages: · Administrator: You can access complete
configuration of the device. You have total control of the device. · Operator:
You can access the video flow and the identification parameters of the device.
You can control zoom, movements of the device and the wash system. You cannot
edit the configuration parameters. · User: You can access the video flow and
the identification parameters of the device.
Fig. 50
The username can only consist of alphanumeric characters; no special
characters. The password format depends on the setting in the “Security
Policies” webpage (9.24.9 Security Policies Page (Security), page 67).
9.10 Motions Recall Page
For Dual Vision products, the settings shown in this chapter are common to
both cameras. A set parameter or a command sent on the thermal camera web
interface page also affects the Day / Night camera and vice versa.
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
In the Recall Movements menu item, you can specify the inactivity time
intervals after which the product will execute certain functions.
· Type: This parameter selects the function to execute once the time interval
of inactivity is up. The functions which can be activated are: None, Home
Position, Preset Position, Analytics Home, Analytics Preset, Preset Tour. The
Preset Position and Analytics Preset functions require specification of which
Preset using your ID. The Analytics Home function will bring the device to the
home position and will enable video analysis. The Analytics Preset function
will bring the device to the specified preset and will enable video analysis.
The Preset Tour function requires specification of which Preset Tour using
your name. Currently, a single Preset Tour called Patrol is available.
· Timeout: This parameter specifies the duration of the inactivity interval.
· Cyclic Re-calibration: This parameter specifies after how many hours the
system must execute a new axes calibration procedure. Sets value 0 to disable
the function.
Fig. 51
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9.11 Motion Detection page
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
The device can be configured to emit alarms using ONVIF events.
· Sensitivity Level: Configures the algorithm sensitivity level.
· DISABLED: No ONVIF event sent.
· LOW / MEDIUM / HIGH: The Event ONVIF tns1:VideoSource/MotionAlarm is sent
when a partial change of scene is detected; there are three different degrees
of sensitivity (low / medium /high) which determine the degree of scene change
and sending the Event.
· TAMPER DETECTION: In the event of tampering with the device (sudden change
of entire scene) the ONVIF Event tns1:VideoSource/GlobalSceneChange/
ImagingService is sent..
9.12 Video Analytics page
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
For devices equipped with VIDEOTEC ANALYTICS, the settable parameters are as
follows:
· Tracking activation (assumes activation of the video analysis):
· ENABLED: the PTZ moves automatically if movements are detected in the scene
and ONVIF motion detection events are emitted.
· DISABLED: the PTZ remains still in the current position and ONVIF motion
detection events are emitted if movements in the scene are detected.
· Target Loss Timeout: Set the waiting time (in seconds) that automatic
tracking waits, once the target loss is detected, before carrying out further
movement or before returning to the initial position of motion detection.
· Max Duration: Set the maximum duration (in seconds) of tracking. When the
time expires, the PTZ returns to the initial motion detection position.
Fig. 52
Fig. 53
· Video Analytics Default: The button restores the default settings of the
video analysis.
The video analysis algorithm should be enabled with the specific button on the
Home page. To automatically enable video analysis, set Analytics on the
Motions Recall page.
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9.13 Rules and Calibration page
Based on the product version, all the functionalities may not be enabled.
Access to this web page keeps motion recall blocked. Exit the page, to reset
it.
The Rules and Calibration page allows you to configure a set of filters for
the advanced video analysis alarms. The rules and calibration are defined on
the presets. Select a preset from the existing ones.
9.13.1 Rules
To draw the rules, follow the instructions on the web page.
· Line: An alarm is generated only by the targets crossing the line.
Fig. 54
To create a new preset, refer to the HOME page (9.2 Home Page, page 10).
Fig. 55
· Area: An alarm is generated only by the targets entering, exiting,
appearing, remaining in the area for a prolonged time (loitering).
· Detection mask: Area where motion detection is not applied.
In the event of two or more rules, the alarm is generated when at least one
rule is in alarm mode.
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9.13.2 Calibration
To calibrate, follow the instructions on the web page.
Calibration allows measuring the targets and enabling the rules based on the
dimensions (9.13.3 Targets Classification, page 37).
To calibrate, provide the height of the camera and/or draw one or more heights
recognised on the image. No multiple calibrations are planned of flat
surfaces, such as parking on level ground and an uphill ramp, in the same
frame. Instead, it is possible to calibrate a single flat, tilted surface (in
ascent or descent).
9.13.3 Targets Classification
To configure target classification, follow the instructions on the web page.
This page is only enabled if calibration is complete.
The targets can be chosen that generate alarms based on size.
· Person: An alarm is generated only by the targets with dimensions (metres
squared) inside the interval defined for that category.
· Vehicle: An alarm is generated only by the targets with dimensions (metres
squared) inside the interval defined for that category.
· Object: An alarm is generated only by the targets with dimensions (metres
squared) inside the interval defined for that category.
Fig. 56
A message will indicate calibration is not complete until all the measurements
required are provided.
Fig. 58
Classification combines with the rules: for example, an alarm is generated
only by people crossing a line, if “Person” is chosen and a “Line” rule is
drawn.
Fig. 57
When calibration is complete, measurement is possible of objects and people on
the image and verify these measurements are correct.
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9.14 Washer System Page
Do not use the wiper if the outside temperature is below 0°C (+32°F) or in
case of ice.
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
In products with video analysis: detection is temporarily interrupted on
activation of the wiper and the wash system, autotracking is temporarily
interrupted on activation of the wash system.
From the menu, it is possible to configure the device wash system functions. ·
Washing system: Enables or disables the wash
system. · Wiper-on Delay (s): Sets the time in seconds
from the start of the wash liquid supply to wiper switch-on. · Washer Cycle
Duration (s): Sets the time in seconds in which the wiper is on with
simultaneous liquid supply. · Wiper-off Delay (s): Sets the time in seconds
from the end of the wash liquid supply to wiper disabling. · “Washer by wiper”
enable: If this function is enabled, a wiper activation control command
corresponds with activation of the complete washing procedure. At the end of
the procedure, the PTZ returns to the initial position. · Go to Nozzle
Position/Save Nozzle Position
Fig. 60 PTZ screen Fig. 61 Fixed camera screen
Fig. 59
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9.15 Motion Parameters Page
For Dual Vision products, the settings shown in this chapter are common to
both cameras. A set parameter or a command sent on the thermal camera web
interface page also affects the Day / Night camera and vice versa.
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
All the PTZ parameters can be checked via web in the Movement Parameters menu
item.
· Options: Configuration parameters.
· Offset Pan: The PTZ has a mechanically defined 0° Pan position. The Offset
Pan parameter allows you to define a different 0° Pan position via software.
· Offset Tilt: The PTZ has a mechanically defined 0° Tilt position. The Offset
Tilt parameter allows you to define a different 0° Tilt position via software.
· Economy Mode: Reduces torque of the motors when the PTZ has stopped to
reduce consumption. Do not enable in the presence of strong wind or
vibrations.
· Operative Mode:
· NORMAL: The motors torque is a constant value, both when the PTZ unit has
stopped, and when it is in motion.
· ECO: The motors torque is reduced when the PTZ unit has stopped, to reduce
consumption. Do not enable in the presence of strong wind or vibrations.
· WIND: The motors torque is a constant value, but over the NORMAL mode, both
when the PTZ unit has stopped, and when it is in motion. Enable in the
presence of strong winds or vibrations.
· Autoflip: Turns PTZ 180° when the tilt of the PTZ reaches the end of stroke.
It makes it easier tracking subjects along corridors or roads.
· Ceiling Mount: It rights the image and reverses the handling controls. For
this parameter to take effect, you may need to switch the device off and back
on again.
· Manual Controls: Configuration parameters.
· Maximum Speed: Sets the maximum manual speed.
· Scan Speed: The speed, measured in degrees to the second, at which a preset
is reached by explicit operator request.
· Default ptz timeout (ms): Timeout is an optional topic of the ONVIF
“ContinuousMove” operation; if the “ContinuousMove” operation is missing, its
default value is defined by this parameter.
· Speed with Zoom: When enabled, this parameter automatically slows down the
Pan & Tilt speed, based on the Zoom factor.
· Tilt Factor: Sets the reduction factor of the tilt axis manual speed.
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· Movement Limits: Configuration parameters. · Pan Limits: Enables the limits
of Pan. · Pan Start: Sets the start limit of Pan. · Pan End: Sets the end
limit of Pan. · Tilt Limits: Enables the limits of Tilt. · Tilt Start: Sets
the start limit of Tilt. · Tilt End: Sets the end limit of Tilt.
· Position Check: Configuration parameters. · Static Control: Enables control
of the position only when the PTZ has stopped. · Dynamic Control: Enables
control of the position only when the PTZ is in motion. · Sensitivity Level:
It enables selection of detection system sensitivity of unwanted Pan and Tilt
movements, both in Static and Dynamic mode. If the threshold set is surpassed,
the system will re-calibrate Pan and Tilt. Sensitivity levels available:
DISABLED, LOW, MEDIUM, HIGH
Fig. 62
9.16 Preset Tour Page
For Dual Vision products, the settings shown in this chapter are common to
both cameras. A set parameter or a command sent on the thermal camera web
interface page also affects the Day / Night camera and vice versa.
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
On the menu item, it is possible to define and set parameters for the Preset
Tour and Preset.
Currently, a single Preset Tour called Patrol is available.
Patrol can only be activated if at least one Preset was defined.
For efficient Patrol operation, you need to define a Preset for each desired
scene. · Preset Tour Configuration: Configuration
parameters. · Initial Preset: First Preset of Preset Tour. · Final Preset:
Last Preset of Preset Tour. · Random mode: Enables execution of the
Preset Tour in random mode. · Direction: Sets the sequence of the Preset Tour,
from the first preset to the last (FORWARD) or from the last to the first
(BACK). · Default Speed (°/s): Movement speed which can be assigned by default
to each Preset. · Imposes the default speed: Assigns the Default Speed to each
Preset. · Default Pause (s): Pause which can be assigned on each Preset by
default.
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· Imposes Default Pause: Assigns the Default Pause to each Preset.
· Set start analytics (Preset tour): Enables/ disables “Start Analytics
(Preset Tour)” of each individual Preset.
· Set start analytics (Goto Preset): Enables/ disables “Start Analytics (Goto
Preset)” of each individual Preset.
· Preset Configuration: Configuration parameters.
· Preset ID: Value that ranges from 1 to 250 that identifies the existing
Preset which you can configure in the Preset Tour.
· Enabled: Enables the Preset in the Preset Tour function.
· Description of preset: You can assign, to the selected Preset, a short
description using a max 20 characters.
· Pan (°): Displays the Pan value of the selected Preset.
· Tilt (°): Displays the Tilt value of the selected Preset.
· Zoom: Displays the Zoom value of the selected Preset.
· Start Analytics (Preset Tour): During a Preset Tour, when the device arrives
on Preset, Video Analytics is enabled.
· Start Analytics (Goto Preset): Video Analysis is activated once the specific
preset has been recalled.
· Movement Speed (°/s): Sets the movement speed when the Preset is referenced
in the Preset Tour function.
· Pause (s): Sets the pause before starting subsequent movement of the Preset
Tour.
· Start Preset Tour/Stop Preset Tour
Fig. 63
Fig. 64
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9.17 OSD page
For Dual Vision products, the settings shown in this chapter are common to
both cameras. A set parameter or a command sent on the thermal camera web
interface page also affects the Day / Night camera and vice versa.
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
The device supports video display of information text.
You can define the following parameters:
· Enabled: To enable text display.
· Text Position: You can position the text in the top left-hand or top right-
hand corner. The text can differ based on the PTZ region, as defined below.
· Background: The writing can be white on a black background or white on a
transparent background.
· Front size: You can define the size of the text to display.
The “Date and Time” section allows you to define the following parameters:
· Show Date: You can enable display of the current date. The date can be
positioned on the top lefthand or top right-hand corner.
· Date Format: You can select the display format of the date.
· Show Time: You can enable display of the current time. The time can be
positioned on the top lefthand or top right-hand corner.
· Time Format: You can select the display format of the time.
· Time Zone: The date and time can be displayed as UTC or as the local time
zone, as set on the network page.
In devices equipped with a thermal camera, you can display the temperatures of
the ROI set. You can define the following parameter:
· Show Temperatures in OSD: Temperature display can be disabled, or it can be
enabled and positioned in the top left-hand or right-hand corner
In PTZ devices, you can define up to four PAN regions and information text
video display based on the position of the PTZ. In devices with a fixed
camera, you can define text only.
You can define the following parameters for each region:
· Enabled: Each region can be configured as disabled, enabled clockwise and
enabled anticlockwise.
· Text: You can define text to display (maximum 63 characters). The position,
the dimensions of the characters and the background are defined in the panel
above, and apply to all the PTZ regions.
· OSD region start (°): The point in which the OSD region begins (expressed in
sexagesimal degrees).
· OSD region end (°): The point in which the OSD region ends (expressed in
sexagesimal degrees).
Fig. 65
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9.18 Night Mode Page
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
· Day/Night Management: Configuration parameters.
· Brightness Sensor: Sets the ambient light reading method in order to switch
to Night Mode.
· EXTERNAL: Reading of the ambient light via the proposed digital input.
· CAMERA: Reading of the ambient light via the camera.
· Accessory illuminator: You can set an accessory illuminator (infrared or
white) as an optional to connect to the Digital Output (configurable auxiliary
relay) of the device.
· IR Camera Filter Synchronization: If on, it enables the removal of the IR
filter when the system is in Night Mode.
· Spotlight illuminator Activation: Sets the Spot illuminator activation mode.
· DISABLED: The Spot illuminator is disabled.
· SAME AS WIDE: The Spot illuminator is activated with Wide.
· ZOOM FACTOR: The Spot illuminator is activated when the Wide illuminator is
activated and the zoom factor is greater than the set value.
· PRESET POSITIONS: The Spot illuminator is activated when the Wide
illuminator is activated and the PTZ is in one of the specified preset
positions.
· ZOOM FACTOR WITHOUT WIDE: As with the ZOOM FACTOR, with the exception that
when the Spot illuminator turns on, the Wide illuminator turns off, and vice
versa.
· PRESET POSITIONS WITHOUT WIDE: As for PRESET POSITIONS, with the exception
that when the Spot illuminator turns on, the Wide illuminator turns off, and
vice versa.
· Day-Night Parameters: Configuration parameters.
· Day-Night Threshold: Sets the light level below which the device switches to
Night Mode.
· Night-Day Threshold: Sets the light level above which the device switches to
Day Mode.
· Day-Night Delay: Sets the time in seconds during which the light level must
stay under the Night threshold before the device enables Night Mode.
· Night-Day Delay: Sets the time in seconds during which the light level must
stay over the Day threshold before the device enables Day Mode.
· Spot Illuminator parameters: Configuration parameters.
· Spot Illuminator Zoom Threshold: When Night mode is activated, it indicates
the zoom level after which the Spot illuminator is activated.
· Spot Illuminator Preset List: When Night mode is activated, it specifies for
which presets the Spot illuminator will be activated (maximum 10 presets).
Fig. 66
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9.19 Encoder Parameters Page
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
In the Encoder Settings menu, it is possible to configure the video flows of
the device (3 flows). Each video flow can have an independent Codec, chosen
from H264, MPEG4 and MJPEG. For H264 and MPEG4, the Bitrate control
(Transmission Speed) is type CVBR (Constrained Variable Bitrate), and requires
setting the values of the BitRate Limit and Quality. For MJPEG, the Bitrate
control (Transmission Speed) is type VBR (Constant Quality and Variable
Bitrate), and requires setting the Quality value only. For a better
description of the CVBR and VBR controls, consult the relevant table (Tab. 2,
page 45).
It is possible to configure the address and the port for configuration of
multicast video streaming.
One or more Multicast video streamings can be disabled.
The Multicast Video Ports and the Multicast Metadata Ports must all six be
different from one another and have even numbers.
The Multicast Metadata Ports are automatically set to +20 compared to the
Multicast Video Ports.
Changing any parameter on this page may cause brief interruption of the video
flows.
Fig. 67
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DESCRIPTION OF CVBR AND VBR CONTROLS
Codec
Mode
Quality
H264 / MPEG4
CVBR (Constrained Constant (defined
Variable Bitrate)
by the user)
Bitrate
Upper limit defined by the user
Frame Drop never
MJPEG Tab. 2
VBR (Constant Quality, Variable Bitrate)
Constant (defined Variable by the user)
never
Instruction manual – English – EN
Description
CVBR compresses the video based on the constant Quality value set by the user.
With compression of the video based on the constant Quality value, you will
have constant video quality, while the bitrate will be variable. With a simple
scene, the bitrate will be low; with a complex scene, the bitrate will be
high. If the scene is too complex and the bitrate will exceed the Bitrate
level, the algorithm will decrease the video Quality to try to keep the
bitrate under the Bitrate limit. If the scene is very complex and when the
video Quality reaches the minimum, the bitrate will exceed the limit of the
Bitrate set, since in this way frame loss is not permitted.
This mode compresses the video based on the constant Quality value set by the
user. Compression of the video based on the constant Quality value will give
constant video quality, while the bitrate will be variable. If a scene is
simple, the bitrate is low; if a scene is complex, the bitrate is high.
EN – English – Instruction manual
9.20 Digital I/O Page
For Dual Vision products, the settings shown in this chapter are common to
both cameras. A set parameter or a command sent on the thermal camera web
interface page also affects the Day / Night camera and vice versa.
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
The Digital I/O menu item enables configuration of the Digital Inputs and see
their STATUS; configure the Digital Outputs and force their STATUS. · Digital
Inputs: A Digital Input can be found in
two different STATUSES: IDLE or ACTIVE.
· You can define if resting an Input is Normally Open or Normally Closed.
· A Normally Open Input is considered IDLE when it is Open and ACTIVE when it
is Closed.
· A Normally Closed Input is considered IDLE when it is Closed and ACTIVE when
it is Open
· If an input is IDLE, the led is grey, if ACTIVE, the led is green.
· On each STATUS change, a corresponding ONVIF Event is sent.
· On each STATUS change, you can associate an Automatic Action (9.21 Automatic
Actions Page, page 47).
· Digital Outputs (to Relay): A Digital Output can be found in two different
STATUSES: IDLE or ACTIVE.
· You can define if Resting an Output is Normally Open or Normally Closed.
· A Normally Open Output is considered IDLE when it is Open and ACTIVE when it
is Closed.
· A Normally Closed Output is considered IDLE when it is Closed and ACTIVE
when it is Open.
· Use the selector to force the STATUS change of an Output.
· On each STATUS change, a corresponding ONVIF Event is sent.
· The STATUS change can be an Automatic Action (9.21 Automatic Actions Page,
page 47).
· Mode: There can be two types of STATUS change for the Digital Outputs:
· LEVEL (BISTABLE): If an output is set to ACTIVE, it stays ACTIVE until reset
to IDLE.
· PULSE (MONOSTABLE): If an output is set to ACTIVE, it stays ACTIVE for the
duration set, then returns to IDLE.
Fig. 68
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9.21 Automatic Actions Page
For Dual Vision products, the settings shown in this chapter are common to
both cameras. A set parameter or a command sent on the thermal camera web
interface page also affects the Day / Night camera and vice versa.
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
Depending on the VMS utilized, there can be some Event features where it is
possible to configure custom rules (actions) based on a Input not an output
(VIRTUAL INPUT 1, VIRTUAL INPUT 2).
This page allows you to associate an automatic action with certain default
events (Activation of an Input, Receipt of an Auxiliary Command or other)
according to the device.
A list follows of the Events available and the actions which can be associated
with them:
· Digital Input n: (refer to 9.20 Digital I/O Page, page 46)
· DIGITAL OUTPUT: If the Input becomes ACTIVE, the Output associated becomes
ACTIVE. If the Input returns to IDLE, the Output associated returns to IDLE.
If the associated Output is in PULSE (MONOSTABLE) Mode, it returns IDLE
however at the end of the time set in the Duration parameter.
· PRESET TOUR: If the Input becomes ACTIVE, PRESET TOUR (PATROL) is enabled.
· WIPER: If the Input becomes ACTIVE, the WIPER is enabled, if the Input
returnsIDLE, the WIPER stops. The WIPER stops however when a minute is up.
· WASHER: If the Input becomes ACTIVE, the washing procedure is enabled.
· HTTP GET REQUEST: If the Input becomes ACTIVE, a GET REQUEST is sent to the
url indicated, with possible authentication (User Name and Password).
· HOME POSITION: If the Input becomes ACTIVE, the device goes to the Home
position.
· PRESET POSITION: If the Input becomes ACTIVE, the device goes to the
indicated Preset position.
· VIRTUAL INPUT 1: If the input becomes ACTIVE, input (virtual) 10 becomes
ACTIVE, and the resulting Event tns1:Device/Trigger/ DigitalInput|True with
Token=10 is generated. If the Input returns to IDLE, input (virtual) 10
returns to IDLE state, and the resulting Event
tns1:Device/Trigger/DigitalInput|False with Token=10 is generated.
· VIRTUAL INPUT 2: If input becomes ACTIVE, INPUT (virtual) 11 becomes ACTIVE,
and the resulting Event tns1:Device/Trigger/ DigitalInput|True con Token=11 is
generated. If the Input returns to IDLE, input (virtual) 11 returns to IDLE
state, and the resulting Event tns1:Device/Trigger/DigitalInput|False with
Token=11 is generated.
· ANALYTICS HOME: If the input becomes ACTIVE,VIDEOTEC ANALYTICS is enabled in
HOME. If the input returns IDLE, VIDEOTEC ANALYTICS is disabled.
· ANALYTICS PRESET: If the input becomes ACTIVE, VIDEOTEC ANALYTICS is enabled
in the configured preset. If the input returns IDLE, VIDEOTEC ANALYTICS is
disabled.
· LOW WASHER LIQUID LEVEL: If the input becomes ACTIVE, it is generated the
consequent tns1 Event:Monitoring / Washer / LiquidLow true. If the input
returns IDLE, it is generated the consequent tns1 Event:Monitoring / Washer /
LiquidLow false.
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· Motion Detection/Video Analytics alarm: (tns1:VideoSource/MotionAlarm)
· DIGITAL OUTPUT: If the Event tns1:VideoSource/MotionAlarm|True is generated,
the associated Output becomes ACTIVE. If the Event tns1:VideoSource/
MotionAlarm|False is generated, the associated Output returns to IDLE. If the
associated Output is in PULSE (MONOSTABLE) Mode, it returns IDLE however at
the end of the time set in the Duration parameter.
· PRESET TOUR: If the Event tns1:VideoSource/ MotionAlarm|True is generated,
the PRESET TOUR (PATROL) is enabled.
· WIPER: If the Event tns1:VideoSource/ MotionAlarm|True is generated, the
WIPERis activated; if the Event tns1:VideoSource/ MotionAlarm|False is
generated, the WIPER stops. The WIPER stops however when a minute is up.
· WASHER: If the Event tns1:VideoSource/ MotionAlarm|True is generated, the
washing procedure is enabled.
· HTTP GET REQUEST: If the Event tns1:VideoSource/MotionAlarm|True is
generated, a GET REQUEST is sent, to the url indicated; with possible
authentication (User Name and Password).
· HOME POSITION: If the Event tns1:VideoSource/MotionAlarm|True is generated,
the device goes to the Home position.
· PRESET POSITION: If the Event tns1:VideoSource/MotionAlarm|True is
generated, the device goes to the indicated Preset position.
· VIRTUAL INPUT 1: If the Event tns1:VideoSource/MotionAlarm|True is
generated, input (virtual) 10 becomes ACTIVE, and the resulting Event
tns1:Device/Trigger/ DigitalInput|True with Token=10 is generated. If the
Event tns1:VideoSource/MotionAlarm|False is generated, input (virtual) 10
returns to the IDLE state and the resulting Event tns1:Device/
Trigger/DigitalInput|False with Token=10 is generated.
· VIRTUAL INPUT 2: If the Event tns1:VideoSource/MotionAlarm|True is
generated, input (virtual) 11 becomes ACTIVE, and the resulting Event
tns1:Device/Trigger/ DigitalInput|True with Token=11 is generated. If the
Event tns1:VideoSource/MotionAlarm|False is generated, input (virtual) 11
returns to the IDLE state and the resulting Event tns1:Device/
Trigger/DigitalInput|False with Token=11 is generated.
· REMOTE MOVEMENT: If the Event tns1:VideoSource/MotionAlarm|True is
generated, then a movement command is sent to a PTZ unit at the URL indicated,
with possible authentication (User Name and Password). The camera, that
generates the alarm event, can be both a fixed or PTZ camera. The REMOTE
MOVEMENT functionality is only available for models with video analysis.
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· GO TO THE COORDINATES: The PTZ unit that receives the command frames the
target that generated the alarm event based on the geo-coordinates of the
target. It is required that both the cameras are geo-referenced and that the
camera that generates the alarm has at least one calibrated preset. The
functionality is only active for detection on the calibrated presets. The TEST
FUNCTIONALITY key allows simulation of the alarm event. On pressing the key,
the new screen opens as illustrated in the following figure.
Fig. 69
To test: 1. Select a calibrated Preset and click with the
mouse on the Scan Preset button 2. Click with the mouse on a point of the
image:
a red cross appears that indicates the centre of the target (simulated) that
you want to frame with the remote PTZ unit. 3. Insert the height and the width
of this target. 4. Click on the SEND COMMAND key: a command is sent to the
remote PTZ unit with the target information. 5. Click on the OPEN REMOTE
DEVICE key: another window opens with the home page of the remote PTZ unit.
The test has a positive outcome if the PTZ unit frames in the centre the area
corresponding to the simulated target. The expected zoom level is not
excessive (the target is approximately a tenth of the image) because a real
situation requires compensation for target movement while the PTZ unit is
positioned and also any calibration and geolocalisation uncertainties. If the
test has a negative outcome, check correctness of calibration and the geo-
coordinates of the cameras.
If the test presents a centring error of the PAN target, check if the tool was
used to calculate the azimuth for one or both cameras (fixed and PTZ unit) on
the GeoLocalisation page, the error may be due to use of a point too close to
the edge of the image. If this is the case, repeat the calculation with the
point more centred (if possible). Otherwise, check the values of the azimuth
angles. If necessary, manually correct the azimuth of the fixed camera based
on the centring error of the PAN target and repeat the test.
If the test presents a centring error of the target in TILT, you are advised
to check the altitudes of both the cameras are correct (the difference in
altitude between the two cameras must be accurate). If errors are found on
targets far from the camera, then check calibration was implemented over the
entire depth of the relevant scene. The base of the remote PTZ unit must be
parallel to the ground. For very far targets, inaccurate assembly in this
respect could cause significant target centring errors.
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· GO TO THE COORDINATES AND TRACK: The PTZ unit that receives the command
frames the target that generated the alarm event based on the geo-coordinates
of the target, and executes auto-tracking. It is required that both cameras
are georeferenced, that this camera has at least one calibrated preset (the
functionality is only active for detection on the calibrated presets) and that
the camera that receives the command has video analysis. For the TEST
FUNCTIONALITY key, refer to the previous points GO TO THE COORDINATES. The
difference is that during the GO TO THE COORDINATES AND TRACK test, you must
also check on the remote PTZ unit that the Video Analytics mode is activated
on sending the command (“SEND COMMAND” key).
· GO TO PRESET: The PTZ unit that receives the command moves to the indicated
preset. The TEST FUNCTIONALITY key allows simulation of the alarm event. On
pressing the key, a new screen opens with the ENTER COMMAND key which sends to
the remote PTZ the request for movement on the configured preset and the OPEN
REMOTE DEVICE key that allows another window to open with the home page of the
remote PTZ unit.
· GO TO PRESET AND TRACK: The PTZ unit that receives the command moves to the
indicated preset and executes autotracking. It is also required that the PTZ
unit that receives the command has VIDEOTEC ANALYTICS. For the TEST
FUNCTIONALITY key, refer to the previous SCAN PRESET point. The difference is
that during the SCAN PRESET AND TRACK test, you must also check on the remote
PTZ unit that the Video Analytics mode has enabled on sending the command
(SEND COMMAND key).
If on the automatic actions page the type of movement or the IP and/or access
credentials are changed, then the TEST FUNCTIONALITY key disables until the
changes are saved by clicking the SEND key at the bottom of the page.
The remote PTZ unit manages the remote movement requests if in PATROL or IDLE.
Instead, if the Video Analytics mode is enabled (for example a movement
reference is configured), then the remote movement request is ignored.
The GO TO THE COORDINATES and SCAN PRESET actions terminate when the PTZ unit
is positioned. At this point, other remote movement requestions can be
managed.
The GO TO THE COORDINATES and SCAN PRESET AND TRACK actions terminate when
tracking finishes (or following a given timeout if the target is not detected
by the PTZ unit). At that point, the remote PTZ unit disables the Video
Analytics mode, returns to the position it was in before the remote movement
request and can manage other remote movement requests.
· Tamper Detection (tns1:VideoSource/ GlobalSceneChange/ImagingService) The
automatic actions which can be associated with this event
“tns1:VideoSource/GlobalSceneChange/ ImagingService” are the same as those
which can be associated with the event “tns1:VideoSource/ MotionAlarm”,
already vastly described in the section relating to the Event “Motion
Detection/ Video Analytics Alarm”. For further explanation, refer to that
section.
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· Radiometry Alarm: (tns1:VideoSource/ RadiometryAlarm)
· DIGITAL OUTPUT: If the Event tns1:VideoSource/RadiometryAlarm|True is
generated, the associated Output becomes ACTIVE. If the Event
tns1:VideoSource/ RadiometryAlarm|False is generated, the associated Output
returns to IDLE. If the associated Output is in PULSE (MONOSTABLE) Mode, it
returns IDLE however at the end of the time set in the Duration parameter.
· PRESET TOUR: If the Event tns1:VideoSource/ RadiometryAlarm|True is
generated, PRESET TOUR (PATROL) is enabled.
· HTTP GET REQUEST: If the Event tns1:VideoSource/RadiometryAlarm|True is
generated, a GET REQUEST is sent, to the url indicated; with possible
authentication (User Name and Password).
· HOME POSITION: If the Event tns1:VideoSource/RadiometryAlarm|True is
generated, the device goes to the Home position.
· PRESET POSITION: If the Event tns1:VideoSource/RadiometryAlarm|True is
generated, the device goes to the Preset position indicated.
· VIRTUAL INPUT 1: If the Event tns1:VideoSource/RadiometryAlarm|True is
generated, as a result input (virtual) 10 becomes ACTIVE, and the resulting
Event tns1:Device/ Trigger/DigitalInput|True with Token=10 is generated. If
the event tns1:VideoSource/ RadiometryAlarm|False is generated, as a result
input (virtual) 10 returns to the IDLE state, and the resulting Event
tns1:Device/Trigger/ DigitalInput|False with Token=10 is generated.
· VIRTUAL INPUT 2: If the Event tns1:VideoSource/RadiometryAlarm|True is
generated, as a result input (virtual) 11 becomes ACTIVE, and the resulting
Event tns1:Device/ Trigger/DigitalInput|True with Token=11 is generated. If
the event tns1:VideoSource/ RadiometryAlarm|False is generated, as a result
input (virtual) 11 returns to the IDLE state, and the resulting Event
tns1:Device/Trigger/ DigitalInput|False with Token=11 is generated.
· STOP: If the Event tns1:VideoSource/ RadiometryAlarm|True is generated, the
device stops all its movement; any Preset Tours (Patrol), Tracking or other
automatic movement processes are also interrupted.
· Radiometric Warning: (tns1:VideoSource/ RadiometryWarning)
· DIGITAL OUTPUT: If the Event tns1:VideoSource/RadiometryWarning|True is
generated, the associated Output becomes ACTIVE. If the Event
tns1:VideoSource/ RadiometryWarning|False is generated, the associated Output
returns to IDLE. If the associated Output is in PULSE (MONOSTABLE) Mode, it
returns IDLE however at the end of the time set in the Duration parameter.
· PRESET TOUR: If the Event tns1:VideoSource/ RadiometryWarning|True is
generated, the PRESET TOUR (PATROL) is enabled.
· HTTP GET REQUEST: If the Event tns1:VideoSource/RadiometryWarning|True is
generated, a GET REQUEST is sent, to the url indicated; with possible
authentication (User name and Password).
· HOME POSITION: If the Event tns1:VideoSource/RadiometryWarning|True is
generated, the device goes to the Home position.
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· PRESET POSITION: If the Event tns1:VideoSource/RadiometryWarning|True is
generated, the device goes to the indicated Preset position.
· VIRTUAL INPUT 1: If the Event tns1:VideoSource/RadiometryWarning|True is
generated, as a result input (virtual) 10 becomes ACTIVE, and the resulting
Event tns1:Device/ Trigger/DigitalInput|True with Token=10 is generated. If
the event tns1:VideoSource/ RadiometryWarning|False is generated, as a result
input (virtual) 10 returns to the IDLE state, and the resulting Event
tns1:Device/Trigger/ DigitalInput|False with Token=10 is generated.
· VIRTUAL INPUT 2: If the Event tns1:VideoSource/RadiometryWarning|True is
generated, as a result input (virtual) 11 becomes ACTIVE, and the resulting
Event tns1:Device/ Trigger/DigitalInput|True with Token=11 is generated. If
the event tns1:VideoSource/ RadiometryWarning|False is generated, as a result
input (virtual) 11 returns to the IDLE state, and the resulting Event
tns1:Device/Trigger/ DigitalInput|False with Token=11 is generated.
· STOP: If the Event tns1:VideoSource/ RadiometryWarning|True is generated,
the device stops all its movement; any Preset Tours (Patrol), Tracking or
other automatic movement processes are also interrupted.
· Auxiliary Command: (tt:configuredAuxComma nd)
· DIGITAL OUTPUT: If the Auxiliary Command tt:configuredAuxCommand|On is
received, the associated Output becomes ACTIVE. If the Auxiliary Command
tt:configuredAuxCommand|Off is received, the associated Output returns to
IDLE. If the associated Output is in PULSE (MONOSTABLE) Mode, it returns IDLE
however at the end of the time set in the Duration parameter.
· PRESET TOUR: If the Auxiliary Command tt:configuredAuxCommand|On is
received, PRESET TOUR (PATROL) is enabled.
· WIPER: If the Auxiliary Command tt:configuredAuxCommand|On is received, the
WIPER is enabled; if the Auxiliary Command tt:configuredAuxCommand|Off is
received, the WIPER stops. The WIPER stops however after a minute.
· WASHER: If the Auxiliary Command tt:configuredAuxCommand|On is received, the
washing procedure is enabled.
· HTTP GET REQUEST: If the Auxiliary Command tt:configuredAuxCommand|On is
received, a GET REQUEST is sent, to the url indicated; with possible
authentication (User Name and Password).
· HOME POSITION: If the Auxiliary Command tt:configuredAuxCommand|On is
received, the device goes to the Home position.
· PRESET POSITION: If the Auxiliary Command tt:configuredAuxCommand|On is
received, the device goes to the Preset position indicated.
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· VIRTUAL INPUT 1: If the Auxiliary Command tt:configuredAuxCommand|On is
received, input (virtual) 10 becomes ACTIVE, and the resulting Event
tns1:Device/ Trigger/DigitalInput|True with Token=10 is generated. If the
Auxiliary Command tt:configuredAuxCommand|Off is received, input (virtual) 10
returns to the IDLE state, and the resulting Event tns1:Device/Trigger/
DigitalInput|False with Token=10 is generated.
· VIRTUAL INPUT 2: If the Auxiliary Command tt:configuredAuxCommand|On is
received, input (virtual) 11 becomes ACTIVE, and the resulting Event
tns1:Device/ Trigger/DigitalInput|True with Token=11 is generated. If the
Auxiliary Command tt:configuredAuxCommand|Off is received, input (virtual) 11
returns to the IDLE state, and the resulting Event tns1:Device/Trigger/
DigitalInput|False with Token=11 is generated.
· ANALYTICS HOME: If the Auxiliary Command tt:configuredAuxCommand|On is
received, VIDEOTEC ANALYTICS is enabled in HOME. If the Auxiliary Command
tt:configuredAuxCommand|Off is received, VIDEOTEC ANALYTICS is disabled.
· ANALYTICS PRESET: If the Auxiliary Command tt:configuredAuxCommand|On is
received, VIDEOTEC ANALYTICS is enabled in configured preset. If the Auxiliary
Command tt:configuredAuxCommand|Off is received, VIDEOTEC ANALYTICS is
disabled.
· Day to night: (tns1:Device/DayToNight)
· DIGITAL OUTPUT: If the Event tns1:Device/ DayToNight|True is generated, the
associated output becomes ACTIVE. If the Event tns1:Device/DayToNight|False is
generated, the associated Output returns to IDLE. If the associated Output is
in PULSE (MONOSTABLE) Mode, it returns IDLE however at the end of the time set
in the Duration parameter.
· PRESET TOUR: If the Event tns1:Device/ DayToNight|True is generated, PRESET
TOUR (PATROL) is enabled.
· WIPER: If the Event tns1:Device/ DayToNight|True is generated, the WIPER is
enabled; if the Event tns1:Device/ DayToNight|False is generated, the WIPER
stops. The WIPER stops however when a minute is up.
· WASHER: If the Event tns1:Device/ DayToNight|True is generated, the washing
procedure is active.
· HTTP GET REQUEST: If the Event tns1:Device/ DayToNight|True is generated, a
GET REQUEST is sent, to the url indicated; with possible authentication (User
Name and Password).
· HOME POSITION: If the Event tns1:Device/ DayToNight|True is generated, the
device goes to the Home position.
· PRESET POSITION: If the Event tns1:Device/ DayToNight|True is generated, the
device goes to the Preset position indicated.
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· VIRTUAL INPUT 1: If the Event tns1:Device/ DayToNight|True is generated,
input (virtual) 10 becomes ACTIVE, and the resulting Event
tns1:Device/Trigger/DigitalInput|True with Token=10 is generated. If the Event
tns1:Device/DayToNight|False is generated, input (virtual) 10 returns to the
IDLE state and the resulting Event tns1:Device/Trigger/ DigitalInput|False
with Token=10 is generated.
· VIRTUAL INPUT 2: If the Event tns1:Device/ DayToNight|True is generated,
input (virtual) 11 becomes ACTIVE, and the resulting Event
tns1:Device/Trigger/DigitalInput|True with Token=11 is generated. If the Event
tns1:Device/ DayToNight|False is generated, input (virtual) 11 returns to the
IDLE status and the resulting Event tns1:Device/Trigger/DigitalInput|False
with Token=11 is generated.
· ANALYTICS HOME: If the Event tns1:Device/ DayToNight|True is generated,
VIDEOTEC ANALYTICS is enabled in HOME. If the Event
tns1:Device/DayToNight|False is generated, VIDEOTEC ANALYTICS is disabled.
· ANALYTICS PRESET: If the Event tns1:Device/ DayToNight|True is generated,
VIDEOTEC ANALYTICS is enabled in configured preset. If the Event
tns1:Device/DayToNight|False is generated, VIDEOTEC ANALYTICS is disabled.
· Night to day: (tns1:Device/NightToDay)
· DIGITAL OUTPUT: If the event tns1:Device/ NightToDay|True is generated, the
associated output becomes ACTIVE. If the Event tns1:Device/NightToDay|False is
generated, the associated Output returns to IDLE. If the associated Output is
in PULSE (MONOSTABLE) Mode, it returns IDLE however at the end of the time set
in the Duration parameter.
· PRESET TOUR: If the Event tns1:Device/ NightToDay|True is generated, the
PRESET TOUR (PATROL) is active.
· WIPER: If the Event tns1:Device/ NightToDay|True is generated, the WIPER is
active; if the Event tns1:Device/ NightToDay|False is generated, the WIPER
stops. The WIPER stops however when a minute is up.
· WASHER: If the Event tns1:Device/ NightToDay|True is generated, the washing
procedure is active.
· HTTP GET REQUEST: If the Event tns1:Device/ NightToDay|True is generated, a
GET REQUEST is sent, to the url indicated; with possible authentication (User
Name and Password).
· HOME POSITION: If the Event tns1:Device/ NightToDay|True is generated, the
device goes to the Home position.
· PRESET POSITION: If the Event tns1:Device/ NightToDay|True is generated, the
device goes to the Preset position indicated.
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· VIRTUAL INPUT 1: If the Event tns1:Device/ NightToDay|True is generated,
input (virtual) 10 becomes ACTIVE, and the resulting Event
tns1:Device/Trigger/DigitalInput|True with Token=10 is generated. If the Event
tns1:Device/NightToDay|False is generated, input (virtual) 10 returns to the
IDLE state and the resulting Event tns1:Device/Trigger/ DigitalInput|False
with Token=10 is generated.
· VIRTUAL INPUT 2: If the Event tns1:Device/ NightToDay|True is generated,
input (virtual) 11 becomes ACTIVE, and the resulting Event
tns1:Device/Trigger/DigitalInput|True with Token=11 is generated. If the Event
tns1:Device/ NightToDay|False is generated, input (virtual) 11 returns to the
IDLE state and the resulting Event tns1:Device/Trigger/DigitalInput|False with
Token=11 is generated.
· ANALYTICS HOME: If the Event tns1:Device/ NightToDay|True is generated,
VIDEOTEC ANALYTICS is enabled in HOME. If the Event
tns1:Device/NightToDay|False is generated, VIDEOTEC ANALYTICS is disabled.
· ANALYTICS PRESET: If the Event tns1:Device/ NightToDay|True is generated,
VIDEOTEC ANALYTICS is enabled in configured preset. If the Event
tns1:Device/NightToDay|False is generated, VIDEOTEC ANALYTICS is disabled.
· Schedule no.: (tns1:Schedule/State/Active)
· DIGITAL OUTPUT: If the Schedule becomes ACTIVE, the Event
tns1:Schedule/State/ Active|True is generated, and the associated Output
becomes ACTIVE. If the Schedule returns to IDLE, the Event
tns1:Schedule/State/ Active|False is generated, and the associated Output
returns to IDLE. If the associated Output is in PULSE (MONOSTABLE) Mode, it
returns IDLE however at the end of the time set in the Duration parameter.
· PRESET TOUR: If the Schedule becomes ACTIVE, the Event tns1:Schedule/State/
Active|True is generated, and the PRESET TOUR (PATROL) is enabled.
· WIPER: If the Schedule becomes ACTIVE, the Event
tns1:Schedule/State/Active|True is generated, and the WIPER is enabled. If the
Schedule returns to IDLE, the Event tns1:Schedule/State/Active|False is
generated, and the WIPER stops. The WIPER stops however when a minute is up.
· WASHER: If the Schedule becomes ACTIVE, the Event
tns1:Schedule/State/Active|True is generated, and the washing procedure is
enabled.
· HTTP GET REQUEST: If the Schedule becomes ACTIVE,
tns1:Schedule/State/Active|True is generated, and a GET REQUEST is sent, to
the url indicated, with possible authentication (User Name and Password).
· HOME POSITION: If the Schedule becomes ACTIVE, the Event
tns1:Schedule/State/ Active|True is generated, and the device goes to the Home
position.
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· PRESET POSITION: If the Schedule becomes ACTIVE, the Event
tns1:Schedule/State/ Active|True is generated, and the device goes to the
indicated Preset position.
· VIRTUAL INPUT 1: If the Schedule becomes ACTIVE, Event
tns1:Schedule/State/Active|True is generated, input (virtual) 10 becomes
ACTIVE, and the resulting Event tns1:Device/Trigger/ DigitalInput|True with
Token=10 is generated. If the Schedule returns to IDLE, Event
tns1:Schedule/State/Active|False is generated, input (virtual) 10 returns to
the IDLE state and the resulting Event tns1:Device/Trigger/ DigitalInput|False
with Token=10 is generated.
· VIRTUAL INPUT 2: If the Schedule becomes ACTIVE, Event
tns1:Schedule/State/Active|True is generated, input (virtual) 11 becomes
ACTIVE, and the resulting Event tns1:Device/Trigger/ DigitalInput|True with
Token=11 is generated. If the Schedule returns to IDLE, Event
tns1:Schedule/State/Active|False is generated, input (virtual) 11 returns to
the IDLE state and the resulting Event tns1:Device/Trigger/ DigitalInput|False
with Token=11 is generated.
· ANALYTICS HOME: If the Schedule becomes ACTIVE, the event
tns1:Schedule/State/ Active|True is generated and VIDEOTEC ANALYTICS is
enabled in HOME. If the Schedule returns to IDLE, the event
tns1:Schedule/State/ Active|False is generated, and the VIDEOTEC ANALYTICS are
disabled. Furthermore, whatever the previous condition, the Schedule has
priority, also over tracking.
· ANALYTICS PRESET: If the Schedule becomes ACTIVE, the event
tns1:Schedule/State/ Active|True is generated, and VIDEOTEC ANALYTICS is
enabled in the configured preset. If the Schedule returns to IDLE, the event
tns1:Schedule/State/Active|False is generated, and the VIDEOTEC ANALYTICS are
disabled. Furthermore, whatever the previous condition, the Schedule has
priority, also over tracking.
Fig. 70
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9.22 Schedule Page
For Dual Vision products, the settings shown in this chapter are common to
both cameras. A set parameter or a command sent on the thermal camera web
interface page also affects the Day / Night camera and vice versa.
The Schedule Page allows you to configure the time intervals to which an
action is then associated at the time of activation.
You can configure up to 3 different Schedules.
On activation of one of the time intervals in one of the Schedules, the Onvif:
tns1:Schedule/State/Active (true or false) event will be generated.
· Weekly Scheduling: The weekly scheduling section allows you to configure the
activation intervals which have a weekly frequency. On each day of the week,
you can associated a maximum of 4 time intervals. The basket button allows you
to eliminate all the configured time intervals.
· Special Days: The Special Days section allows you to configure a dates
interval to which the time intervals can then be associated. You can create a
maximum of 10 special days for each Schedule. For each special day, you can
configure a maximum of 4 time intervals. The basket button allows you to
eliminate all the configured time intervals.
The special days configured have priority over the weekly schedule
· Add: To add a special day, click on the `+’ button, a pop-up opens where you
can configure:
· Name;
· Start date;
· End date;
Clicking on one of the two dates, a selector opens that will display a
calendar where you can select the date.
Pressing the Save key, the configuration is saved.
· Edit: To edit one of the special days, you can click on the pencil icon. A
pop-up opens where you can edit:
· Name;
· Start date;
· End date;
· Delete: To eliminate one of the Special Days, click on the x-shaped icon.
If the Special Day already has associated time intervals, all the intervals
must be removed and the configuration saved with the button on the bottom
right.
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· Time interval: To create/delete a time interval, click on the
select/deselect button over the table. Starting from the start time, press the
RH key of the mouse and keep it pressed to select the area of interest.
· Associate an action: To associate an action to the activation event, go to
the “Automatic Actions” page. For the Schedule of interest, select the action
to execute on its activation.
Example of output activation every: Monday from 8:00 to 18:59 Wednesday from
12:00 to 14:29 and from 19:00 to 22:59.
Configure Schedule 1 as in the figure:
Fig. 71
Fig. 72
Click the saving icon on the bottom right.
Go to the “Automatic Actions” page and associate activation of the DIGITAL
OUTPUT with the Schedule 1 event.
Fig. 73
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9.23 Geolocation page
For Dual Vision products, the settings shown in this chapter are common to
both cameras. A set parameter or a command sent on the thermal camera web
interface page also affects the Day / Night camera and vice versa.
Based on the product version, all the functionalities may not be enabled.
The menu dynamically auto-configures based on the product model.
This page allows setting the coordinates at which the device is found:
· Geolocation: Enable/Disable the geolocation.
· Latitude (°) / Longitude (°) / Ground Level (m): Coordinates where you can
find the device.
· Azimuth (°): Pan 0° angle compared to north (positive in clockwise
direction). The Azimuth is the relevant pan axis zero, based on the Offset Pan
value defined on the Motion Parameters page. The Azimuth can be entered by the
user or it can be calculated using the Azimuth Calculation Tool (described
below).
· Pitch (°): Angle compared to the horizon (uneditable field). For the PTZ
unit, it is always 0 because tilted assembly is not permitted. For the fixed
cameras, tilting is obtained through calibration. For the fixed cameras not
calibrated, 0 is displayed. For the fixed cameras without video analysis, the
Tilting field is not displayed.
· Azimuth Calculation Tool: Frame a point whose geo-coordinates you know. As much as possible, choose a point not too near the edge of the image (the problem arises only for fixed cameras) and far from the camera. Click this point on the image, a red cross appears on that point. Insert the latitude and longitude of that point (the latitude and the longitude of the point can only be entered after clicking on the point on the image). Click on the Calculate Azimuth key, the calculated value is entered in the Azimuth field. Save the data by clicking the ENTER key. To remove the point and the relevant geo- coordinates, click the REMOVE REFERENCE key. Alternatively, the Azimuth value can be entered directly without using the tool.
Fig. 74
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When the device has been geo-localised, the target Test menu appears, where
you can set the coordinates and dimension of a target. Confirming the
settings, the PTZ will capture the definitive target.
· Latitude (°) / Longitude (°) / Ground Level (m): Coordinates where you can
find the target.
· Height (m) / Width (m): Target dimensions
Clicking the ARROW key, the command to frame the target is sent to the PTZ
unit.
9.24 Security Page
Fig. 75
Fig. 76
9.24.1 Passphrases
The Passphrase is a secret string. A Passphrase may be used to derive keys, to
authenticate an IEEE 802.1x supplicant or to decrypt encrypted contents.
Fig. 77
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9.24.2 Keys
· Generate keys: Trigger the asynchronous generation of an RSA key pair of a
particular key length (specified as the number of bits) as specified in RFC
3447.
Once a key is created or uploaded a new row will be displayed in the keys table.
Fig. 78
Fig. 82
Each table row shows: · Alias: Display Alias assigned to key. · Id: Display
unambiguous ID used by the device to
identify the key. · Status: Describes the status of the key using icons.
· The system is generating the key.
Fig. 79
· Load keys: Upload a key pair in a PKCS#8 data structure as specified in RFC
5958, RFC 5959. In case the uploaded keypair is encrypted, the user has to
provide a valid passphrase to decode it; the passphrase can be specified using
the passphrase ID of an existing passphrase or providing a new passphrase..
Fig. 83
· The key was generated.
Fig. 84
· The key was corrupted or no longer valid.
Fig. 80
Fig. 85
· The key also contains the private key.
Fig. 81
Fig. 86
· The key only contains the public key.
Fig. 87
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· Action: Display a series of Action buttons.
· Generate certificate: Generates a self-signed X.509 certificate that
complies to RFC 5280 for the public ey.
· Private Key: In some cases it is required that the private key that
corresponds to the public key in the certificate is present in the device
keystore. In these cases the user can specify this requirement selecting the
option YES in the Private key field.
Once a new certificate is uploaded, a new row will be displayed in the
certificates table
Fig. 88
· Generate certification request: Generates a DER-encoded PKCS#10 v1.7
certification request (sometimes also called certificate signing request or
CSR) as specified in [RFC 2986] for the public key.
Fig. 89
· Delete key: Deletes the key from the device’s keystore. This button will be
disabled in the case the key has been used to generate one of the certificates
stored in the device..
Fig. 90
9.24.3 Certificates
· Load Certificate: Uploads an X.509 certificate as specified by RFC 5280 in
DER encoding and the public key in the certificate to a device’s keystore.
Fig. 93
Each table row shows: · Alias: Alias assigned to the certificate. · Id:
Unambiguous ID used by the device to identify
the certificate. · key Id: Unambiguous ID of the key associated
with the certificate. · Action: Display an Action button.
· Delete certificate: Deletes the certificate from the device’s keystore. This
button will be disabled in the case the certificate is referenced in one of
the certification paths stored in the device.
Fig. 94
Fig. 91
Fig. 92
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MNVFWEB4-4_2131_EN
Instruction manual – English – EN
9.24.4 Certification Path
· Create sequence of certificates: Create a sequence of certificates that may
be used, e.g., for certification path validation or for TLS server
authentication. The signature of each certificate in the certification path
except for the last one shall be verifiable with the public key contained in
the next certificate in the path..
Fig. 95
· Only first certificate: If set to YES the device will consider only the
first certificate of the sequence provided.
· Integrity passphrase ID: If an integrity passphrase ID is supplied, the
device will use the corresponding passphrase in the keystore to check the
integrity of the supplied PKCS#12 PFX.
· Decryption passphrase: If a decryption passphrase is supplied, the device
will use the corresponding passphrase in the keystore to decrypt the
certification path.
Once a new Certification Path is created or uploaded a new row will be
displayed in the Certification Path table.
Fig. 96
· Load Certification Path Uploads a Certification Path consisting of X.509
certificates as specified by RFC 5280 in DER encoding along with a private key
to a device’s keystore. Certificates and private key shall be supplied in the
form of a PKCS#12 file.
Fig. 97
Fig. 99
Each table row shows:
· Alias: The Alias assigned to the certification path.
· Id: the unambiguous ID used by the device to identify the Certification
Path.
· Action: A series of Action buttons.
· Certification Path not associated: The grey icon indicates that the
certification path is not associated with the TLS server yet. Click on the
button to assign the certification path to the TLS server on the device. If
the certification path is correctly assigned to the TLS server the button icon
becomes green.
Fig. 100
Fig. 98
MNVFWEB4-4_2131_EN
63
EN – English – Instruction manual
· Certification Path associated: The green icon indicates that the Certification Path is associated with the TLS server. Click on the button to remove Certification Path assignment to the TLS server. If the Ce
References
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