Difference between revisions of "Anti-Theft Solution and Stolen Vehicle Recovery"

From Wiki Knowledge Base | Teltonika GPS
m (Text replacement - "Bluetooth" to "Bluetooth®")
m (Correction of supported devices. FMC and FMM now support jamming according to datasheet.)
 
(2 intermediate revisions by one other user not shown)
Line 17: Line 17:
 
==What you need for a solution?==
 
==What you need for a solution?==
  
*The anti-theft solution is supported by '''FMBxyz''' series (including FMB640) and '''FMUxyz Teltonika device, which has DOUT''' which in this scenario is used to connect a buzzer or use starter cut-off relay. At the moment '''FMCxyz''' and '''FMMxyz '''series devices do not support Jamming detection.
+
*The anti-theft solution is supported by '''FMBxyz''' series (including FMB640), '''FMUxyz''', '''FMCxyz''' and '''FMMxyz Teltonika devices, which have DOUT''' which in this scenario is used to connect a buzzer or use starter cut-off relay.
  
 
*The SIM card in order to get data to your server
 
*The SIM card in order to get data to your server

Latest revision as of 22:38, 20 December 2023

Main Page > General Information > Usage scenarios > Anti-Theft Solution and Stolen Vehicle Recovery

Disclaimer

Alert.png


If you are not using Bluetooth®, please consider turning it off or change Bluetooth® PIN to remove potential risks.

If you are using Bluetooth® we strongly recommend using AES encryption for enhanced security.

Solution description

Vehicle theft is one of the world’s fastest-growing crimes as thieves turn to use highly advanced equipment, e.g. jammers. By jamming GSM signals, the criminals aim to interfere and inhibit the performance of a tracking device – its ability to monitor and gather important information. Luckily, Teltonika trackers have a functionality that can detect jamming and help to prevent theft or to recover a stolen vehicle.

We are glad that you decide to test our “Anti-Theft and stolen vehicle recovery” solution.

Here you will find how to prepare and test this solution.

What you need for a solution?

  • The anti-theft solution is supported by FMBxyz series (including FMB640), FMUxyz, FMCxyz and FMMxyz Teltonika devices, which have DOUT which in this scenario is used to connect a buzzer or use starter cut-off relay.
  • The SIM card in order to get data to your server
  • Relay, which will be controlled by DOUT may turn on the alarm, disable engine start, or lock doors. Please contact your sales representative to order the relay from Teltonika. If you want to use your own relay please double-check the type of relay and its supported voltage range. FMB platform configurator, to configure the device in order to work with this solution.
  • FOTA WEB to remotely send the configuration to the device.

Installation

It’s important to well hide the tracker, so it would not be a simple task for the thieves to find and unplug it. But also, please do not forget to follow mounting recommendations as well.

Although devices have high gain antennas it’s important to mount devices with stickers on top and in metal-free space. The device should be firmly fixed to the surface or cables. Please make sure, that device is not fixed to heat emitting or moving parts.


To have a working solution it’s important to properly make wiring.

As the main solution accessory is a relay, please make sure that the right contacts are connected


During installation please follow recommendations in order to avoid damaging device and vehicle:

  • Wires should be connected while the module is not plugged in.
  • Be sure that after the car computer falls asleep, power is still available on the chosen wire. Depending on the car, this may happen in a 5 to 30 minutes period.
  • When the module is connected, be sure to measure the voltage again if it did not decrease.
  • The ground wire is connected to the vehicle frame or metal parts that are fixed to the frame.

Configuration

1. Prerequisites:

1.1. Read through First start guide

1.2. Understanding of possible Sleep modes.


2. Configuring Jamming scenario

Parameter ID – Parameter name GPRS settings:


  • 2001 – APN
  • 2002 – APN username (if there are no APN username, empty field should be left)
  • 2003 – APN password (if there are no APN password, empty field should be left)


Server settings:

  • 2004 – Domain
  • 2005 – Port
  • 2006 – Data sending protocol (0 – TCP, 1 – UDP)



After successful GPRS/SERVER settings configuration, device will synchronize time and update records to the configured server. Time intervals and default I/O elements can be changed by using Teltonika Configurator or SMS parameters.

Sleep settings:

  • 102 – Sleep settings(0 – Disable, 1 – Gps sleep, 2 – Deep sleep, 3 – Online Deep sleep, 4 – Ultra sleep)
  • Note: This scenario will not work with Deep Sleep and Ultra Deep Sleep modes, since they disable the device's GSM module to save power.



Jamming scenario settings:

  • 11300 – Scenario priority
  • 11303 – Eventual settings (0 – Disable, 1 – Enable)
  • 11304 – Output Control (0 – None, 1 – DOUT1, 2 – DOUT2, 3 – DOUT3)
  • 11301 – DOUT ON Duration (ms)
  • 11302– DOUT OFF Duration (ms)
  • 11305 – Time Until Jamming Event Detection (s)

Note: It's not recommended to set 11305 parameter to a very value(few seconds) because jamming scenario might be triggered while driving in the city.

Quickstart: From default configuration to Jamming detection in one SMS:

"  setparam 2001:APN;2002:APN_username;2003:APN_password;2004:Domain;2005:Port;2006:0;102:1;11300:2;11304:1"

This SMS will set up your device to report the Jamming Detection scenario to the server and toggle ON DOUT1 during jamming.

Note: Before SMS text, two space symbols should be inserted if no SMS username or password was set in SMS \ Call settings.

Parsing information

1.Prerequisites:

1.1. Open TCP/UDP port

1.2. Go to Java parser first start guide

2. Parsing example:

Unparsed received data in hexadecimal stream
000000000000004608010000017501DAF828010F0E4792209AC4FB00C200D70C0000F90D06EF01F00

01503C8004501F900B50005B6000342334D43000044000002F10000601A100000000000010000732E


AVL Data Packet
AVL Data Packet Part HEX Code Part
Zero Bytes 00 00 00 00
Data Field Length 00 00 00 D6
Codec ID 08 (Codec 8)
Number of Data 1 (Number of Total Records) 01
Timestamp 00 00 01 75 01 DA F8 28 (Wed Oct 07 06:58:49 UTC 2020)
Priority 01
Longitude 0F 0E 47 92
Latitude 20 9A C4 FB
Altitude 00 C2
Angle 00 D7
Satellites 0C
Speed 00 00
Event IO ID F9 (AVL ID: 249, Name: Jamming)
N of Total ID 0D
N1 of One Byte IO 06
1’st IO ID EF (AVL ID: 239, Name: Ignition)
1’st IO Value 01
2’nd IO ID F0 (AVL ID: 240, Name: Movement)
2’nd IO Value 00
3’rd IO ID 15 (AVL ID: 21, Name: GSM Signal)
3’rd IO Value 03
4'th IO ID C8 (AVL ID: 200, Name: Sleep Mode)
4'th IO Value 00
5'th IO ID 45 (AVL ID: 69, Name: GNSS Status)
5'th IO Value 01
6'th IO ID F9 (AVL ID: 249, Name: Jamming)
6'th IO Value 00 (0 – jamming stop, 1 – jamming start)
N1 of Two Byte IO 05
1’st IO ID B5 (AVL ID: 181, Name: GNSS PDOP)
1’st IO Value 00 05
2’nd IO ID B6 (AVL ID: 182, Name: GNSS HDOP)
2’nd IO Value 00 03
3’rd IO ID 42 (AVL ID: 66, Name: External Voltage)
3’rd IO Value 33 4D
4'th IO ID 43 (AVL ID: 67, Name: Battery Voltage)
4'th IO Value 00 00
5'th IO ID 44 (AVL ID: 68, Name: Battery Current)
5'th IO Value 00 00
N4 of Four Bytes IO 02
1’st IO ID F1 (AVL ID: 241, Name: Active GSM Operator)
1’st IO Value 00 00 60 1A
2’nd IO ID 10 (AVL ID: 16, Name: Total Odometer)
2’nd IO Value 00 00 00 00
N8 of Eight Bytes IO 00
Number of Data 2 (Number of Total Records) 01
CRC-16 00 00 73 2E

Demonstration in platform

TAVL: Open TAVL → select client → select Street Map → select device → choose the date from which to show the records → push advanced → push show button and then you will see in left down corner all information.


WIALON: Open WIALON → open messages → push unit ( select your device) → choose the date from which to show the records → select message (data messages) → push execute button and you will see all information.

Wialonturbo.jpg