Globiots WS433-LPC Wireless Lidar People Counter Instruction Manual

Globiots WS433-LPC Wireless Lidar People Counter

Product Information

• Specifications
  • SKU: WS433-LPC
  • Hardware Version: 2.5
  • Firmware Version: 6.01
  • Release Date: February 2022
  • Item Code: WS433-LPC-01
• Sensor Specification
  • Sensor Technology: Lidar
  • Detection Range: Maximum 4m
  • Detection Cone: 27 degrees
  • Working Temperature: -40 to +60 degrees Celsius
  • Working Humidity: 0 to 100% RH, non-condensing
• Wireless Specification
  • Data Speed: Up to 50kbps
  • Transmission Distance (LOS): Up to 1000m
  • Antenna: Internal Antenna
  • Functions: Sending data in intervals or when alarms occur
  • Battery: AA Type 1.5VDC and 7-48VDC (AC adapter not included)
• Frequency Band
  • ISM 433MHz, Sub-GHz technology from Texas Instrument, USA Compliance and Certification
  • International Compliance: ETSI EN 300 220, EN 303 204 (Europe), FCC CFR47 Part15 (US), ARIB STD-T108 (Japan)
  • Vietnam Type Approval Certification: QCVN 73:2013/BTTTT, QCVN 96:2015/BTTTT (DAVITEQ B00122019)
  • Security Standard: AES-128
• Operating Conditions
  • Operating Temperature of PCB: -40 to +60 degrees Celsius (with Lithium Ultimate AA battery)
  • Housing/Protection: Self-extinguisher ABS, Dust and vapor protection
  • Mounting: Ceiling mount
  • Dimensions: H120xW80xD45
  • Net Weight: 150 grams

Product Usage Instructions

• Configuration Check List
  • Step 1: Overview check
  • Check the scope of delivery and ensure that the device shows no signs of damage.
  • Step 2: Connect Sensor node to Co-ordinator
  • Make sure that the battery is installed properly.
  • Follow the steps to add sensor nodes to Co-ordinator WS433-CL or with iConnector integrated Co-ordinator.
  • Step 3: Installation
  • Make sure to comply with the manufacturer’s recommendations.
  • Ensure the correct measuring range is set.
  • Step 4: Check measurement results
  • Check the reliability of the measurement compared with reality.
  • Refer to section 5 for details.
  • Refer to section 6.3 for details.
  • Refer to section 6 and section 7 for details.
• Operation Principle
  • The principle of counting people
  • From a timing perspective, the sensor alternately ranges on each of the two zones for a very short period of time in milliseconds.
  • It is possible to determine in which direction a person crosses the area, depending on which order this person has been detected in the two zones.
• Algorithm description
  • The counting algorithm example relies on a list of states that have to occur in a certain order to detect if a person has crossed the specified area and in which direction this area has been crossed.
  • These states are stored in a list and compared to two default lists of states that represent how the area is crossed in two different directions. When no one is seen in either of the two zones, the list of states is reset.
  • If we consider that a person detected in the front zone equals 2, and a person detected in the back zone equals 1, the algorithm adds the value of the two states and stores the result as soon as it changes.
  • Eventually, if the consecutive states in the list are 0, 1, 3, 2, 0 or 0, 2, 3, 1, 0, this means a person has been detected in one direction or the other.
• FAQ
  • Q: What is the maximum detection range of the sensor?
  • A: The maximum detection range of the sensor is 4 meters.
  • Q: What is the working temperature range for the device?
  • A: The device can operate in temperatures ranging from -40 to +60 degrees Celsius.
  • Q: What type of battery does the device use?
  • A: The device uses AA Type 1.5VDC batteries.
  • Q: Is an AC adapter included in the package?
  • A: No, the AC adapter is not included in the package.

Configuration Check List

Step 1: Overview check|
---|---
Check cope of delivery

Make sure the device shows no signs of damage

| Refer to section 5 for details
Step 2: Connect Sensor node to Co-ordinator|
Make sure that the battery is installed properly
Follow every steps Add sensors node to Co-ordinator WS433-CL or with iConnector integrated Co-ordinator| Refer to section 6.3 for details
Step 3: Installation|
Make sure compliance with manufacturer’s recommendations Make sure the correct measuring range| Refer to section 6 and section 7 for details
Step 4: Check measurement results|
Check the reliability of the measurement compared with reality|

Functions Change Log

Introduction

• WS433-LPC is a sensor with built-in advanced Lidar sensor to detect and ranging people.
• It can count the people walk thru with accuracy higher than 95%.
• The sensor is not affected by temperature, humidity, RF noise and less affected by ambient light…
• The wireless portion is Sub-GHz technology from Texas Instruments allows long range transmission at ultra-low power consumption.
• It will connect 2-way wirelessly to the wireless co-ordinator WS433-CL to send data and receiving the configuration.
• It can be configured the operation parameters like data sending interval, health check cycle…remotely from Globiots platform or via ModbusRTU software (thru the WS433-CL).
• Its default data rate is 50 kbps, can be switched to 625 bps to increase the communication range.
• The sensor can last up to 5 years with type AA battery.
• Typical Applications: People counter for public toilet, People counter for Store, shop, …

WIRELESS LIDAR PEOPLE COUNTER WS433-LPC

Specification

SENSOR SPECIFICATION|
---|---
Sensor technology| Lidar
Detection range| max 4m
Detection cone| 27 degree
Working temperature| -40 .. + 60 oC
Working humidity| 0 .. 100% RH, non-condensing
WIRELESS SPECIFICATION|
Data speed| Up to 50kbps
Transmission distance, LOS| 1000m
Antenna| Internal Antenna
Functions| Sending data in interval or when alarms occur
Battery| Battery AA Type 1.5VDC and 7..48VDC (AC adapter not included
Frequency Band| ISM 433MHz, Sub-GHz technology from Texas Instrument, USA
---|---
International Compliance| ETSI EN 300 220, EN 303 204 (Europe) FCC CFR47 Part15 (US), ARIB STD-T108 (Japan)
Vietnam Type Approval Certification| QCVN 73:2013/BTTTT, QCVN 96:2015/BTTTT (DAVITEQ B00122019)
Security Standard| AES-128
Operating temperature of PCB| -40oC..+60oC (with Lithium Ultimate AA battery)
Housing/Protection| Self-extinguisher ABS, Dust and vapor protection
Mounting| Ceiling mount
Dimension| H120xW80xD45
Net weight| ≺150 grams

Dimensions

DIMENSION DRAWING OF WIRELESS SENSOR (Unit: mm)

WS433-LPC-H6.PNG

Scope of delivery

1. Wireless sensor
2. Screws

Operation Principle

The principle of counting people

Overview

• Counting people with the VL53L1X consists of using the multiple zones of the sensor receiving SPAD area, and of configuring it with two distinct fields of view (FoV), to alternatively get a ranging distance from them and consequently recognize the movements of a person.
• Using this method, the number of people occupying a meeting room, accessible from a reasonably narrow access, is known at all times by detecting the entrances and exits of the attendees.
• By measuring and analyzing the distances of targets within the FoVs of a front and back zone (see figure below and Figure 3.
• Front and back zones), a simple algorithm can detect the direction a person crosses the area under the two FoVs.
• This algorithm “understands” that someone is under one of the FoV as long as the distance measured by the sensor under this FoV is between 0 and a threshold value specified in mm.
• From a timing perspective, the sensor alternatively ranges on each of the two zones, for a very short period of time in milliseconds.
• It is possible to determine in which direction a person crosses the area, depending in which order this person has been detected in the two zones, as shown in the figure below.

Algorithm description

• The counting algorithm example relies on a list of states that have to occur in a certain order to detect if a person has crossed the specified area and in which direction this area has been crossed.
• These states are stored in a list and compared to two default lists of states that represent how the area is crossed in two different directions.
• When no-one is seen in either of the two zones, the list of states is reset.
• If we consider that a person detected in the front zone equals 2, and a person detected in the back zone equals 1, the algorithm adds the value of the two states and stores the result as soon as it changes.
• Eventually, if the consecutive states in the list are 0, 1, 3, 2, 0 or 0, 2, 3, 1, 0 this means a person has been detected in one direction or the other, as described in Figure 4. List of status values.

Hysteresis

• The algorithm validates a crossing event only when a person has fully crossed the two zones.
• It does not validate the event when the person remains for a long time under the FoV or when the person decides to return from the place he came from.
• This is illustrated in the figure below: the algorithm stops and the list of states is reset as soon as no-one is detected in any of the two FoVs.

Ranging on the floor to determine the threshold

• Reliability of the algorithm relies on the accuracy of the setup which detects the distance between the sensor and the floor.
• This can be ensured only if nothing (e.g. no obstacle or static object) blocks the front and back FoVs.
• To assess if a setup is reliable, a significant number of distances can be measured with the sensor.
• Then, a histogram diagram can be established to confirm that the sensor is correctly set up and that no target is within its FoVs.
• A threshold needs to be defined, which is achieved after having ranged on the flooring material over a significant number of samples.
• In fact, the threshold should be chosen so that all the measured distances (when ranging the floor) are greater than this threshold.
• We recommend that at installation of the application, an autocalibration routine is launched to calculate the threshold.
• This is because flooring material can be different in many locations. Figure 6.
• People counting at 2345 mm distance from the floor. The distance between the sensor and the floor is 2345 mm, and as the minimum distance measured by the sensor is 2290 mm, the threshold is thus less than 2290 mm.
  • Note: This calibration should be performed in the worst ambient light conditions, to maximize the jitter and obtain a threshold that is relevant to all possible ambient lighting conditions the counting setup is exposed to.

Status bytes of sensor Node

• Hi-Byte is error code

out the battery for 20s then install it again to reset node to recognize the new sensor module
2| Error, sensor port M12F shorted to GND
3| Error, sensor port M12F shorted to Vcc
4| Error, sensor port M12F shorted each other

• Lo-Byte is sensor type

out the battery for 20s then install it again to reset node to recognize the new sensor module
2| Error, sensor port M12F shorted to GND
3| Error, sensor port M12F shorted to Vcc
4| Error, sensor port M12F shorted each other

Add sensors node to Co-ordinator WS433-CL
Add Sensor Node ID automatically

• CONNECT CO-ORDINATOR TO RS485 – CONFIGURATION CABLE via M12 CONNECTOR

• PIN ASSIGNMENT & WIRING

M12 Plug Male Connection (Right side)

1. pwR+ (RED)
2. A (White)
3. GND (Black)
4. B (Green)

• Step 1: After supplying power the Co-ordinator via M12 connector, the Node ID must be registered within the first 5 minutes, up to 40 WS.
• Step 2: Bring the wireless sensor closer to the Co-ordinator’s antenna then take off the wireless sensor battery, wait for 5s then insert the battery again. If:
• Buzzer plays 1 peep sound, LED blink 1 time, that means registering Node ID on Co-ordinators uccessfully.
• Buzzer plays 2 peep sounds, LED blink 2 times, that this Node ID is already registered.

If you do not hear the “Peep” sound, please disconnect the power the co- ordinator, wait a few minute and try again.

• Node id added in this way will be written to the smallest node_id_n address which is = 0.
• Set Rssi_threshold (see RF MODE CONFIG (in the Modbus Memmap of WS433-CL), default -25): The case if Coordinator is on high position and need to add node sensor. We set the sensor as close as possible and set the
• Rssi_threshold to -80, -90 or -100 to increase the sensitivity to allow WS433-CL-04 can add sensors at a longer distance. After that, perform 2 steps of adding sensors and then reset Rssi_threshold = -25.
• Enb_auto_add_sensors configuration (see RF MODE CONFIG (in the Modbus Memmap of WS433-CL)): In case you do not want to turn off the power WS433-CL, you can set Enb_auto_add_sensors = 1, this way we have 5 minutes to add nodes (add up to 40 nodes) . After 5 minutes Enb_auto_add_sensors will automatically = 0.

Memmap resgisters

• You can download Modbus Memmap of WS433-CL with the following link:https://filerun.daviteq.com/wl/?id=BKEaUzdArkoc0Hc7nfpRShdPVToVrqQZ.

Add sensor node into WS433-CL-04 (1) through intermediate WS433-CL-04 (2) and Modbus

• In case the sensor need to be added to WS433-CL-04 (1) has been installed in a high position, the sensor cannot be brought close to WS433-CL-04 (1). For more details:
  http://www.daviteq.com/en/manuals/books/long-range-wireless-co-ordinator- ws433-cl/page/user-guidefor-long-range-wireless-co-ordinator-ws433-cl.

Configuration

First, you need to prepare

• Num of Node will indicate the number of nodes managed by WS433-CL.
• Every time a node is added, the Num of Node will increase by 1.
• Every time a node is deleted, the Num of Node is reduced by 1.
• Writing Num of Node = 0 will delete all 40 node ids to 0.
• If you want to delete a node id, then write it = 0 with theW rite function is 16 and the Read function is 3.

1. Step 1: Connect Antenna, RS485 – configuration cable and power supply co-ordinator
   • INSTALL ANTENNA
   • CONNECT CO-ORDINATOR TO RS485 – CONFIGURATION CABLE via M12 CONNECTOR
   • SUPPLY POWER 12-24VDC
   • CONNECT RS485 – CONFIGURATION TO COMPUTER via USB
2. Step 2: Open Modbus tool on PC
   • You can download Daviteq Modbus Configuration Tool with the following link: https://filerun.daviteq.com/wl/?id=yDOjE5d6kqFlGNVVlMdFg19Aad6awOHs.
   • Template File: https://filerun.daviteq.com/wl/?id=xYEknMN8AhRLTmf73fXh9SWfORyp1QMa.
   • How to use the Modbus configuration software
   • Unzip file and run file application “Daviteq Modbus Configuration Tool Version”
   • Choose COM Port (the Port which is USB cable plugged in)
   • Set the BaudRate: 9600,
   • Parity: none
   • Click “ Connect “ untill the Status displays “disconnected” to “connected“. It means the WS433-CL-04 is being connected with computer;
   • Next, we need to import the configuration file for WS433-CL-04 by importing the csv file: Go to MENUF: ILE / Import New / => select the template file.
3. Step 3: Configure parameters of the sensor.

Memmap resgisters

• You can download Modbus Memmap of WS433-CL with the following link:https://filerun.daviteq.com/wl/?id=BKEaUzdArkoc0Hc7nfpRShdPVToVrqQZ.
• In the memmap file, refer to the Memmap of WS433-LPC sheet to configure the sensor’s operating parameters accordingly.
• The reference memmap addresses are based on the order of the sensors added in the Memmap file above

Typical sensor parameters:

Installation

Installation location

• Wireless sensor utilize the ultra-low power 433Mhz RF signal to transmit/receive data with Wireless co-ordinator.
• To maximize the distance of transmission, the ideal condition is Line-of-sight (LOS) between the Wireless sensor and Gateway.
• In real life, there may be no LOS condition. However, the two modules still communicate each other, but the distance will be reduced significantly.
  • ATTENTION: DO NOT cover the Wireless sensor or its antenna inside a completed metallic box or housing, because the RF signal can not pass through the metallic material.
  • NOTE: Integrated WS433-CL / iConnector Coordinator The coordinator must be placed at least 4 meters above the ground and the WS433-LPC clearly visible.

Mounting

• Installation method: Mount to the ceiling
• Locate the mounting position at the entrance where people pass by, and out of direct sunlight
• The direction of the triangle is the direction of counting people entering as specified in the payload
• Determine the correct orientation to install the bottom cover to the ceiling in the correct direction

WARNING:

Avoid placing hands or heavy objects on the laser sensor surface or the PIR sensor surface, as this may cause damage to the device; Periodically use a clean cloth moistened with 70 degrees of alcohol to wipe the surface of the 2 sensors to keep the sensor clean and accurate.

• Step 1: Determine the direction of people entering the room of the sensor
• Step 2: Mount the bottom housing of the sensor to the ceiling by fasten the 2 screws to the ceiling located at the 2 diagonal corners of the bottom cover.
  • Use the 2 screws that are included to be used to attach the sensor to surfaces such as:W ood, composite plastic.
  • If the ceiling surface is made of plaster, it is recommended to use a special insert so that the device can firmly adhere to the ceiling surface. Avoid dropping the device.
• Step 3: Attach the top and bottom housings (note the 2 reed joint)
  • Fit the main body to the bottom cover in the correct direction: the 2 reed joints on the bottom cover should fit into the main body on the side labeled with the device.
  • Make sure that the main body is fully engaged with the bottom cover, then release the hand.

Battery installation

RECOMMENDED BATTERIES

Steps for battery installation:

• Step 1: Using flat head screws to push into 2 reed joints
• Step 2: Open the housing, then insert 06 x AA 1.5VDC battery, please take note the poles of the battery
  • ATTENTION: REVERSED POLARITY OF BATTERIES IN 10 SECONDS CAN DAMAGE THE SENSOR CIRCUIT!!!
• Step 3: Insert the top plastic housing (Please note the 2 reed joint)

Troubleshooting

empty or not installed correctly Reconfigure the led light function exactly as instructed
2| Wireless sensor not connected to co-ordinator| No power supply The configuration function of the RF data rate is incorrect| Check that the battery is empty or not installed correctly Reconfigure the RF data rate with the button according to the instructions

Support contacts

Manufacturer

• Daviteq Technologies Inc
• No.11 Street 2G, Nam Hung Vuong Res., An Lac Ward, Binh Tan Dist., Ho
• Chi Minh City, Vietnam.
• Tel: +84-28-6268.2523/4 (ext.122)
• Email: info@daviteq.com.
• www.daviteq.com.

Distributor in Australia and New Zealand

• Templogger Pty Ltd
• Tel: 1800 LOGGER
• Email: contact@templogger.net.
• Revision #4
• Created Tue, Feb 15, 2022 3:57 AM by Kiệt Anh Nguyễn
• Updated Tue, Feb 15, 2022 9:53 AM by Kiệt Anh Nguyễn

This document is applied for the following products

BATTERY 1.5VDC, IP5X

References

• Daviteq – Nhà sản xuất cảm biến đo lường và hệ thống IoT
• USER GUIDE FOR LONG RA... | Online Product Manuals & Datasheets
• daviteq.com/en/manuals/uploads/images/gallery/2020-02/1HktMXx8TuYVTcmr-WS433-CL-H12.png
• daviteq.com/en/manuals/uploads/images/gallery/2020-02/lgZGLBZZIOgfqNWb-WS433-CL-H13.png
• daviteq.com/en/manuals/uploads/images/gallery/2020-02/NDiNlDVqvx5g3MKU-WS433-CL-H9.png
• daviteq.com/en/manuals/uploads/images/gallery/2020-02/PEsu8shSFsJ5apuE-WS433-CL-H11.png
• daviteq.com/en/manuals/uploads/images/gallery/2020-02/ppj3ObodTb2dwXUs-WS433-CL-H10.png
• daviteq.com/en/manuals/uploads/images/gallery/2020-02/yZSwCaA7aNAuEFik-WS433-CL-H18.png
• User Guide for Modbus ... | Online Product Manuals & Datasheets
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• daviteq.com/en/manuals/uploads/images/gallery/2022-02/XOmw8fIw1qoCzAR0-WS433-LPC-H1.png
• filerun.daviteq.com/wl/?id=BKEaUzdArkoc0Hc7nfpRShdPVToVrqQZ
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