SYMEO LPR® Product: LPR®-2DB Product Documentation
® Symeo LPR -System ® LPR -2DB Product Documentation CONTENT 1 GENERAL ........................................................................................................ 9 1.1 Safety Instructions ................................................................................................... 9 1.2 Installation ............................................................................................................... 9 1.3 Repairs..........................................................
® Symeo LPR -System ® LPR -2DB Product Documentation 4.3 Cables for Compact Station....................................................................................29 4.3.1 Cable for Power Supply...................................................................................29 4.3.2 Recommended Cable Types HARTING Push Pull Connector .........................31 4.4 Connector box ........................................................................................................31 4.4.
® Symeo LPR -System ® LPR -2DB Product Documentation 7.1 Check list installation and surveying .......................................................................55 7.1.1 Cells, Integral stations .....................................................................................55 7.1.2 LPR-2DB Station (Mobile units) .......................................................................56 7.1.3 Formatting of coordinates ........................................................................
® Symeo LPR -System ® LPR -2DB Product Documentation 9.2 Open Web Server ..................................................................................................86 9.3 Settings ..................................................................................................................87 9.3.1 LAN .................................................................................................................88 9.3.2 Network ...........................................................
® Symeo LPR -System ® LPR -2DB Product Documentation 11 APPENDIX A: AGENCY CERTIFICATIONS ................................................ 129 United States (FCC) and Canada (Industry Canada) ......................................................129 United States (FCC)........................................................................................................129 Canada (Industry Canada) ..............................................................................................
® Symeo LPR -System ® LPR -2DB Product Documentation The documentation for the LPR Local Positioning Radar System is published by: SYMEO GmbH Prof.-Messerschmitt-Str. 3 85579 Neubiberg www.symeo.com If you have any questions or suggestions, please contact: Email: info@symeo.com phone: +49 89 660 7796 0 Copyright © Symeo GmbH 2009 All rights reserved HISTORY Version Date Description 3.17 2009-05-20 Initial release 3.18 2009-07-07 Added documents to one document 3.
® Symeo LPR -System ® LPR -2DB Product Documentation General Copyright © Symeo 2012 Page 8 of 132
® Symeo LPR -System ® LPR -2DB Product Documentation 1 General 1.1 Safety Instructions LPR®-2D systems are purely tracking and assistance systems. They therefore do not satisfy special requirements for personal safety, e.g. performance level c. Follow the safety instructions in the operating instructions for the device and the additional documentation! Keep these safety instructions and other documents together with the device. 1.
® Symeo LPR -System ® LPR -2DB Product Documentation 1.5 Power Supply A safety-inspected power cable that satisfies the regulations of the country of use is required for the device. Devices with metal housings must only be connected to a grounded, shock proof socket. The device must not be operated unless the nominal voltage of the device matches the local supply voltage. Check the supply voltage of the device in stationary devices.
® Symeo LPR -System ® LPR -2DB Product Documentation must be complied with. The warranty shall be voided if you cause defects to the device by installing or exchanging system extensions. 1.8 Additional Instructions Regarding Compact Type and Integral Type Stations The Compact type LPR station must not be opened except for installation. The Compact station contains no serviceable components. When opening, ensure that no fluid gets into the housing.
® Symeo LPR -System ® LPR -2DB Product Documentation 2 Introduction 2.1 Details This symbol appears before information of particular importance. This symbol appears before instructions that must be followed at all times. Failure to comply with these instructions will result in damage to equipment. This symbol appears before instructions that must be followed at all times. Failure to comply with these instructions will result in personal injury.
® Symeo LPR -System ® LPR -2DB Product Documentation - the selected model, application and operation mode) symeo_map.ini symeo_2D.ini All files are delivered in the structure shown in Figure 1 (“deliverables” and “symeoMap”). The folder “mobileUnits” contains all files for the vehicles. The folder “staticCells” contains all files for the LPR-2DB Integral Station including the master LPR-2DB Integral Station. The folder name for all LPR stations is named with the serial number.
® Symeo LPR -System ® LPR -2DB Product Documentation Folder for the files of the firmware for the mobile unit Folder for the configuration files of the DSP for the mobile unit Folder for the configuration files of the DSP for the transponder unit Introduction Copyright © Symeo 2012 Page 14 of 132
® Symeo LPR -System ® LPR -2DB Product Documentation 2.3 Project Planning The planning from identifying the position for the transponders to the commissioning with Symeo MAP is separate into intermediate steps. In the following all possible steps are listed with refer to the relevant chapter in this document.
® Symeo LPR -System ® LPR -2DB Product Documentation 9 Mounting of the antennas 10 Mounting of the mobile station on the vehicle 11 Surveying of LPR-2DB Integral Station 12 Surveying of vehicle 13 Implementation of Surveying coordinates in configuration files 14 Upload of configuration files 15 Modifying of ini-files for software FusionEngine Upload of files for software fusion engine 16 CellPlanning.
® Symeo LPR -System ® LPR -2DB Product Documentation 17 Testing of correct positions Testing cell with analyzing Software Symeo MAP Customer/ Symeo Chapter 0 Introduction Copyright © Symeo 2012 Page 17 of 132
® Symeo LPR -System ® LPR -2DB Product Documentation 3 System Description SYMEO Industrial Local Positioning Radar (LPR) is a system for contactless, real-time determination of distances and positions. LPR B 2D is a distance measurement system which is particularly well suited for use in very harsh, industrial environments, in which other systems such as mechanical rotary encoders or lasers cannot function for long periods.
® Symeo LPR -System ® LPR -2DB Product Documentation *3 Temperature inside the housing can range from -40°C to 85°C. 3.2 Operating Mode There are different system topologies to determine a 2D position with a Symeo LPR® system. Which operating is best suited depends on the application and the environment. It depends on the number of mobile units you want to track and on the number of cells which are necessary to cover the environment.
® Symeo LPR -System ® LPR -2DB Product Documentation signal with precisely known delay and an individual frequency offset corresponding to the fixed mounted unit measurement ID. The mobile unit computes the round-trip time-of-flight and therefore the 1D distance to each transponder. Finally, the mobile unit calculates of all single 1D distances a 2D position.
® Symeo LPR -System ® LPR -2DB Product Documentation If desired the master transponder can store the coordinates of the cell (mode 2b). The master transponder then repeatedly broadcasts his coordinates and all base-stations in range receive the data. Alternatively the coordinates can be kept on the mobile unit permanently as in mode 1 (mode 2a).
® Symeo LPR -System ® LPR -2DB Product Documentation If desired the master transponder can store the coordinates of the cell (mode 3b). The master transponder then repeatedly broadcasts his coordinates and all base-stations in range receive the data. Alternatively the coordinates can be kept on the mobile unit permanently as in mode 1 (mode 3a).
® Symeo LPR -System ® LPR -2DB Product Documentation The model is set by Symeo by delivery. 3.3.1 Hover-Track The HoverTrack model is used for vehicles that can move in x- and y-direction but cannot turn over its center. A typical example is the trolley of a crane. The name based on a hovercraft which can move forward and backward as well as sideward. To make a 2D-positioning the mobile unit needs at least one antenna.
® Symeo LPR -System ® LPR -2DB Product Documentation The configuration files are: LPR-2DB Station (Mobile unit): basestation_config.txt LPR-2DB Integral Station (Fixed-mounted unit / transponder): stationXX0_config.txt stationXX1_config.txt stationXX2_config.txt stationXX3_config.txt stationXX4_config.txt stationXX5_config.txt (XX: Cell-ID) stationxxM_config.
® Symeo LPR -System ® LPR -2DB Product Documentation These 1D distances are forwarded to the software FusionEngine. The FusionEngine can either be on the ARM9 board of the mobile unit or on a separate PC of the customer. In the software FusionEngine all 1D distance measurement are merged to a 2D positioning.
® Symeo LPR -System ® LPR -2DB Product Documentation 4 Hardware All corresponding installation, repair and servicing work must be carried out by qualified and trained technicians. 4.1 System components – Overview The system can exist of multiple cells and mobile units for the vehicles. Each cell exists of 4 to 6 LPR transponder stations (type integral). Depending on the chosen operating mode a master is added to each cell.
® Symeo LPR -System ® LPR -2DB Product Documentation Ethernet: Plugged connection Antennas Connection of up to 4 independent antennas Compliance CE mark 4.2.3 Station BSB000313, BSB000319 160 1 2 91 3 26 4 0 5 Figure 9- interfaces of LPR station on vehicle as a single receiver Description of Interfaces 1 Pressure equalization membrane. The membrane prevents forming of condensation water inside the Compact Station.
® Symeo LPR -System ® LPR -2DB Product Documentation 4.2.4 Station BSB000603, BSB000604, BSB000605, BSB000606 1 2 3 4 5 6 7 Figure 10 - interfaces of LPR station on a vehicle as double receiver Technical Data and Description of Interfaces 1, 3, 5, 7 Antenna connections. The antennas are connected to the Compact Station via a specially converted low-loss HF cable with N-plug. 1: Antenna port no. 1, 3: Antenna port no. 2, 5: Antenna port no. 4, 7: Antenna port no. 3, 2 Network (optional).
® Symeo LPR -System ® LPR -2DB Product Documentation 4.2.
® Symeo LPR -System ® LPR -2DB Product Documentation Figure 12 – Cable for power supply with integrated RS232 interface PIN-Assignment of Cable Lumberg Connector 0223 08 Plug Lumberg 0223 08 Cable 8-wire AWG24 UL/CSA; cladding diameter = 6.
® Symeo LPR -System ® LPR -2DB Product Documentation ground the TXD-wires (PIN 4 and PIN 6) with PIN 7 and 8. 4.3.
® Symeo LPR -System ® LPR -2DB Product Documentation Cable bushing 3 x PG Connection for cladding diameter 5 – 10 mm 1 x sealing cap Protection category IP65 If usage of appropriate cables (diameter 5 till 8mm) and correct connection of cap and cable bushing is assured If the cable bushing are not used the sealing cap (including the sealing ring) has to be mounted to keep the protection category IP65. 4.4.
® Symeo LPR -System ® LPR -2DB Product Documentation 4.5 LPR-2DB Integral Station (fixed mounted unit) Following hardware exists for an LPR-2DB Integral Station on the light poles: TPB000250 (LPR-2DB Integral) TPB000251 (LPR-2DB Integral) TPB000530 (LPR-2DB Integral, cell coordinator) The electronics inside LPR-2DB Integral Station hood itself do not include any components that can be serviced by the user.
® Symeo LPR -System ® LPR -2DB Product Documentation 4.5.2 Components of LPR-2DB Integral Station 1 LED 2 Cable feedthrough 3 Terminal pin 4 Terminal block 5 Plug 6 Transponder locating slot 7 Installation points 6 3 2 1 4 5 7 Figure 15 – Hood, Base and Bracket (from left to right) The base is where the terminal block for the electrical connection and the plug for connecting the hood is located.
® Symeo LPR -System ® LPR -2DB Product Documentation 6 dBi Omnidirectional Antenna -3 dB Antenna Connector Type N A = 190mm d = 20mm A 30° 0 dB vertical -3 dB 10 dBi Omnidirectional Antenna Antenna Connector Type N -3 dB 0 dB -3 dB 8,5° A = 440mm d = 20mm A vertical -3 dB 10 dBi Sector Antenna -3 dB d Antenna Connector Type N A A = 280mm B = 125mm d = 150mm B 30° 60° (optional) 0 dB 160° 0 dB -3 dB vertical -3 dB horizontal Figure 16- Typical LPR antennas for 2D applications The LPR-
® Symeo LPR -System ® LPR -2DB Product Documentation 6 dBi and 10 dBi Omnidirectional Antenna d applicable for wall and pole mounting A = 228mm B = 38mm d = 50mm A B 10 dBi Sector Antenna d applicable for wall and pole mounting A A = 150mm B = 128mm d = 100mm B Figure 17 - Available Adapters for different Antenna Types Hardware Copyright © Symeo 2012 Page 36 of 132
® Symeo LPR -System ® LPR -2DB Product Documentation 5 Installation 5.
® Symeo LPR -System ® LPR -2DB Product Documentation Figure 18 – Rubber pad for Compact station 5.2 Installation of the LPR-2DB Integral Station TPB000250 (LPR-2DB Integral) TPB000251 (LPR-2DB Integral) TPB000530 (LPR-2DB Integral, cell coordinator) All installation, repair and servicing work must be carried out by qualified and trained electrical technicians! 5.2.1 Electrical Interface The bases can be connected via the terminal block.
® Symeo LPR -System ® LPR -2DB Product Documentation + - Figure 19 – Connecting the power supply 5.2.2 Installation The LPR-2DB Integral Stations are supplied already preassembled (hood + base) and with the bracket separate. Figure 20 shows various views of the assembled LPR-2DB Integral Station including the mounting bracket.
® Symeo LPR -System ® LPR -2DB Product Documentation Figure 20 – Complete LPR-2DB Integral Station including mounting bracket The bracket can be bolted directly to the wall. The LPR-2DB Integral Station can also be secured to posts/poles with two pipe clips (not included). Mount the bracket on the wall or a pole. Detach the hood from the base with the Torx-head screwdriver T25. Insert the cable through the feedthrough.
® Symeo LPR -System ® LPR -2DB Product Documentation 5.2.3 Allocation of LPR-2DB Integral Stations and Installation Points If a cell plan and/or a light pole allocation table is drawn by Symeo or together with Symeo, the position and orientation of the LPR-2DB Integral Station must be installed referred to this master document. The cell plan contains the LPR-2DB Integral Stations with a definite identifier installed at the wall or on the light poles (compare chapter 7.1.1).
® Symeo LPR -System ® LPR -2DB Product Documentation tightening torque. 5.3.2 Mounting of LPR antennas The line of sight between the antennas on each unit must not be obstructed. Therefore, when installing the antenna fixture, ensure that no components are blocking the line of sight between the antennas. If necessary, contact the SYMEO technical department. If you change the position of one antenna, this will affect the measurement data that is output.
® Symeo LPR -System ® LPR -2DB Product Documentation Fixing nut for antenna 4 slots for clamping Assembly bracket of antenna Figure 22 – Antenna with assembly bracket and antenna cable 5.3.3 Notes for mounting position of LPR antennas on the mobile unit Considering the correct mounting position of the antennas you have to take care to guarantee a free line of sight between the antenna(s) on the vehicle and all LPR-2DB Integral Stations.
® Symeo LPR -System ® LPR -2DB Product Documentation 1 2 3 Antenna Antenna Figure 23– Mounting position of antenna 1 Free visual range of antennas 2 Construction (e.g. driver cabin) 3 „blind“ sector On the other hand the antenna should be close to the center of rotation of the vehicle type to make the positioning error due to the rotation of the vehicle as small as possible (see Figure 24).
® Symeo LPR -System ® LPR -2DB Product Documentation Installation Copyright © Symeo 2012 Page 45 of 132
® Symeo LPR -System ® LPR -2DB Product Documentation 6 Coordinate System The LPR-2DB Integral Station and the antennas of the mobile stations must be surveyed. 6.1 Survey Instructions for the LPR-2DB Integral Station The Integral Stations are supplied already preassembled (hood + base) and with the bracket separate. Figure 25 shows various views of the assembled LPR-2DB Integral Station including the mounting bracket Figure 25 – Complete LPR-2DB Integral Station including mounting bracket 6.1.
® Symeo LPR -System ® LPR -2DB Product Documentation z y [0,0,0] x Figure 26 – transponder coordinate system Positions in all four quadrants can be measured in the transponder coordinate system: LPR calculates the 2D position in the plane spanned by x and y. Since it is not always possible to mount all the LPR components (LPR-2DB Integral Station, LPR-2DB Station antennas) in this plane, the deviation of the installation position in "z" relative to this plane must be specified for all LPR components.
® Symeo LPR -System ® LPR -2DB Product Documentation Figure 28 – Position of the measuring point on the Integral Station 6.1.3 Orientation of LPR-2DB Integral Station The alignment of the stations is recorded as a vector in the coordinate system that is defined for the application, and is entered as an ex/ey value. Integer values are possible for ex/ey. The following diagram illustrates this principle (corresponding negative values for an opposite alignment).
® Symeo LPR -System ® LPR -2DB Product Documentation It is also possible to compute the orientation vectors from the angle of the integral station in the plane: y a x Figure 30 – Computation of ex/yx from angle a Hereby is ex = cos(a) and ey = sin(a). So just compute the values and multiplicate with 10 and truncate the decimal place: Example: a = 12°, 10*cos(a)=9,78; 10*sin(a)=2,08 ex = 9; y = 2 6.1.
® Symeo LPR -System ® LPR -2DB Product Documentation y y-position of the transponder in own coordinates in mm height Height of transponders above ground in mm direction x x-component of orientation vector of transponder in own coordinates direction y y-component of orientation vector of transponder in own coordinates beam width Horizontal opening angle of transponder 6.
® Symeo LPR -System ® LPR -2DB Product Documentation The z-direction shows the height of the antennas related to the ground (compare chapter surveying of antennas). Center of antenna 0 Center of antenna 3 y Reference system VC Center of rotation of vehicle x = center of load position Center of antenna 2 Center of antenna 0 Figure 32 - reference coordinate system and installation position of antennas on a van-carrier 6.2.
® Symeo LPR -System ® LPR -2DB Product Documentation The z-direction shows the height of the antennas related to the ground (compare chapter surveying of antennas). 6.2.4 Reference system for vehicle type: crane/ trolley y y x Center of antenna Reference system crane x (0,0,0) Figure 34 – reference coordinate system and installation position of antennas on a crane The origin of the reference system for the crane can be chosen anywhere, because there is no rotation.
® Symeo LPR -System ® LPR -2DB Product Documentation Antenna measurement point Figure 35 – measurement point of antenna The reference point of the antenna for surveying is in the middle of rotational solid of the antenna. 6.3.1 Formatting of coordinates The position of the antennas must be provided to Symeo in the following EXCEL format (compare Table 2 ). The following values must be entered into the file by the surveyor: Antenna position: Antenna position Port (0) x 2.576 y 3.456 Height 12.
® Symeo LPR -System ® LPR -2DB Product Documentation Port Antenna port of the connected antenna. (0) means antenna port 1, (1) means antenna port (2) etc. x x-position of the antenna at the connected port in coordinates of the vehicle. Specification is in meters and with 3 decimal numbers. y y-position of the antenna at the connected port in coordinates of the vehicle. Specification is in meters and with 3 decimal numbers. height Height of the antenna over ground.
® Symeo LPR -System ® LPR -2DB Product Documentation 7 Commissioning The commissioning part consists of following steps: Checking of installation Configuration and upload of files for the DSP to the LPR units Configuration and upload of files for the FusionEngine Commissioning the LPR system with Symeo MAP 7.1 Check list installation and surveying After mechanical and electrical installation the following steps should be succeeded: 7.1.
® Symeo LPR -System ® LPR -2DB Product Documentation 7.1.2 LPR-2DB Station (Mobile units) Antennas have a free line of sight Screwing of external antennas is correct Antennas are labeled to allocate them to the right port of the mobile station. This is necessary for the orientation of the vehicle. The maximum bending radius of external antenna cables is correct 7.1.3 Formatting of coordinates Compare the coordinate data from the surveyor with the plan coordinates of the cell plan. 7.1.
® Symeo LPR -System ® LPR -2DB Product Documentation (only Mode 2 and 3 – master transponder) No modification necessary for mode 1, 2a and 3a stationXX#_config.txt (all transponders) No modification necessary The “XX”-sign replaces the Cell number of the master transponders, the „M“-sign indicates the master station-ID 30. The “XX”-sign replaces the Cell number of the transponders, the „#“-sign the station-ID. 7.2.1 File basestation_config.
® Symeo LPR -System ® LPR -2DB Product Documentation Enter the coordinates from the surveyor for each transponder (T0 – T5) and for the master transponder (T30) into the file for the master transponder. The values are x- , y-, z-direction and the orientation of all transponders in x- and y-direction (see chapter 6.1).
® Symeo LPR -System ® LPR -2DB Product Documentation access via radio access via radio channel (FSK channel) channel (FSK channel) DSP DSP DSP RS232 User ARM9 TCP/IP User & Service RS232 User & Service access via TCP/IP or serial interface RS232 Service Transponder Master Mobile unit/ base station Figure 39 – LPR units including DSP: Access to the DSP via TCP/IP, RS232 or frequency channel 7.3.
® Symeo LPR -System ® LPR -2DB Product Documentation Click in the tab Display on Ansi Enter the IP-address and the port in the tab Port, e.g. 192.168.1.99:3045 Click on open The system data is shown in the terminal window. If the access failed, check if the port 3045 of the LPR station is opened and the IPaddress is correct (compare 9.3). 7.3.2 Connection with LPR mobile unit (type: compact) via RS232 If you have an LPR station (mobile unit) with RS232 interface read this chapter.
® Symeo LPR -System ® LPR -2DB Product Documentation Data interfaces S4 SCIA Port/ ASCII Port (ASCII protocol) and configuration S3 A9 seriell S2 SCIB Port (binary protocol) S1 ARM9 seriell Connect the serial port S4 (SCIA port) of the LPR station and the COM port of the PC via a serial cable (<2 m). Open the terminal program „RealTerm“ Click in the tab “Display” on Display as ANSI. Choose the baud rate to 115.200 Select your COM-port Click on Open 7.3.
® Symeo LPR -System ® LPR -2DB Product Documentation Press button 4 in the window of the terminal program to open the “LPR B Configuration Menu”. Figure 42 Press button 4 in the window of the terminal program for “Upload Configuration”. Figure 43 Change to tab “Send” Choose the path and your file for the mobile station (Basestation_config.txt). Press the “Send File”-button. A successful upload is confirmed in the terminal window. Figure 44 7.3.
® Symeo LPR -System ® LPR -2DB Product Documentation In mode 2b (Managed Cell) and mode 3b (TDOA) the transponder coordinates must be stored in the configuration file of the master transponder. If the coordinates were not transferred to Symeo before delivery or the coordinates/ transponder positions were changed you have modify (7.2.2) and upload the configuration file for the master.
® Symeo LPR -System ® LPR -2DB Product Documentation Enter in the terminal window key “5” for “fsk serial terminal”. Enter “t” for transponder Enter the group-ID of the transponder Enter the station-ID of the transponder (30) Enter the FSK channel Enter “1” for the antenna port of this station Press “Enter” After a moment the mobile unit is connected via radio channel with the master transponder. This is indicated with 2 hash keys at the beginning of the row.
® Symeo LPR -System ® LPR -2DB Product Documentation Press button 1 in the window of the terminal program to open the “LPR B Configuration Menu”. Press button 4 in the window of the terminal program for “Upload Configuration”. Change to tab “Send” Choose the path and your file for the master station (StationXXM_config.txt). Press the “Send File”button. Wait a moment until the master transponder responses. A successful upload is confirmed in the terminal window. 7.3.
® Symeo LPR -System ® LPR -2DB Product Documentation Establish a connection between your PC and the mobile station (7.3.1 or 7.3.2) Keep ready the following data of the master transponder: group-ID, station-ID, fskchannel. These data can be read out from the short ID labeled on the master transponder. Example short-ID 101: The first 2 digits for the cell-ID are consistent with the group-ID. The third digit is the station-ID.
® Symeo LPR -System ® LPR -2DB Product Documentation Press button 4 in the window of the terminal program to open the “LPR B Configuration Menu”. Press button 4 in the window of the terminal program for “Upload Configuration”. Change to tab “Send” Choose the path and your file for the transponder (Station??x_config.txt). Press the “Send File”button. Wait a moment until the transponder responses. Figure 49 A successful upload is confirmed in the terminal window. 7.
® Symeo LPR -System ® LPR -2DB Product Documentation LoadPos.ini Load position (in vehicle coordinates). Customer.ini or Symeo_2D.ini Configuration of customer interface (Symeo 2D protocol) all other files No changes 7.4.1 fusion.ini This file contains all connection settings and some general settings of the software FusionEngine. Figure 50 – fusion.ini (example) [MeasurePath] The path where the FusionEngine recordings (measurements) are saved.
® Symeo LPR -System ® LPR -2DB Product Documentation 7.4.2 field.ini This file contains the transponder coordinates (coordinates of mounted integral stations), if using operation mode 1, 2a or 3a. If using operation mode 2b or 3b the transponder coordinates are saved in the master transponder. Figure 51 – field.ini (example) The transponder coordinates is only be done in mode 1 (Basic Cell), mode 2a (Managed Cell) and mode 3a (TDOA).
® Symeo LPR -System ® LPR -2DB Product Documentation [Orientation] The orientation (ex, ey,ez) of every transponder of this cell. The columns have the following meaning: ID ex ey ez Station-ID (0..5 for transponder, 30 for master) x-orientation vector of transponder x-orientation vector of transponder z-orientation vector of transponder 7.4.3 LPR_B.ini This file contains the antenna positions (in vehicle coordinates) of the mobile unit antennas.
® Symeo LPR -System ® LPR -2DB Product Documentation 1) single receiver: 0..3 for antenna port 1..4, double receiver: 0 in file LPR_B1.ini for port 1, 0 in file LPR_B2.ini for port 2 All positions must be entered in m and with a decimal point. [CabelLength] Only in all RTOF modes (operation modes 1, 2a and 2b), the electrical cable length of antenna must be set. 7.4.4 LoadPos.ini This file contains the load position of the vehicle. It is entered in vehicle coordinates in m.
® Symeo LPR -System ® LPR -2DB Product Documentation [Format] The format of the protocol output (ascii or binary). Additional settings for customizing customer protocol can be found in chapter 10.
® Symeo LPR -System ® LPR -2DB Product Documentation 7.5 Upload configuration files for FusionEngine The ARM9 board of the mobile unit has the operating system LINUX. If the software FusionEngine operates on the ARM9 board and not on the PC, the following files for the FusionEngine are stored on the ARM9 board: FusionEngine fusion.ini field.ini HoverTrack.ini, VehicleTrack.ini or TDOA.ini LPR_B.ini (if double receiver: LPR_B1.ini and LPR_B2.ini) LoadPos.ini user.sh multi_Cell.
® Symeo LPR -System ® LPR -2DB Product Documentation 7.5.1.1 Step 1 – Connecting Start WinSCP and a login screen will appear. Enter connection parameters like the IP-address ('Host name', e.g. 192.168.1.99), user name ('symeo') and password (default password: '54all2u'). After optionally saving the connection parameters ('Save…'), press 'Login' in order to establish a connection.
® Symeo LPR -System ® LPR -2DB Product Documentation In order to upload and update configuration files, browse to the path '/mnt/user3/'. The content of the the nonvolatile memory in '/mnt/user3/' is now shown. Keep in mind, that deleting, renaming, editing and permission changes may lead to malfunctions. 7.5.1.3 Step 3 – Upload files via “drag & drop” First, open the location containing the new files on your local machine.
® Symeo LPR -System ® LPR -2DB Product Documentation The update of the files shown above can be done via "drag & drop" by selecting the files by mouse and dragging the files from the explorer window to the WinSCP window. Release the mouse button and the transfer will start. Depending on your WinSCP version and settings the transfer will be shown either in a dialog box or in the transfer queue (shown above).
® Symeo LPR -System ® LPR -2DB Product Documentation 7.5.1.4 Step 4 – Exiting WinSCP After successful transfer, close the WinSCP program. 7.5.1.5 Step 5 – Station reboot Execute a reboot, changes will take effect during startup. Reboot can be executed via the website of the station, by a power cycle or by using the 'reboot' command in a telnet resp. ssh session. After the transfer has finished, you may check success by the new timestamps ('Changed') of the files or you may view the content of the files.
® Symeo LPR -System ® LPR -2DB Product Documentation 8 Symeo MAP Symeo MAP is the software package for visualizing and monitoring LPR systems. The movement of a single base station and the status of the entire system is available at a click. Symeo MAP requires a PC (Windows XP or Vista), that can access the LPR base station (the computer were FusionEngine runs) via a TCP/IP connection. Symeo MAP can connect to any base station to display the current position and the quality of the position measurement.
® Symeo LPR -System ® LPR -2DB Product Documentation For each mobile unit it is possible to specify a FusionEngine. There are unlimited entries of Fusion Engines possible. Enter the IP-address of the mobile unit. The Host is either an external PC where the FusionEngine operates or the mobile unit. If the FusionEngine and Symeo MAP operate on the same PC, enter “localhost”. Enter the port of that mobile unit. The default port is 7777. It must be consistent with the port entry in the file fusion.
® Symeo LPR -System ® LPR -2DB Product Documentation 8.1.3 Starting Symeo Map Double-click the "SYMEO_Map.exe" executable file. The main window for the application opens: Depending on how many fusion engines are defined in the lpr.ini file you can choose a mobile unit that is connected to the PC. If you have not modified the lpr.ini file as described in chapter 8.1.1 press „Cancel“ for canceling the dialog and modify the file like described in chapter 8.1.1.
® Symeo LPR -System ® LPR -2DB Product Documentation 1 2 3 4 The main window of Symeo MAP is divided into the following areas: 1 - MENU BAR The menu bar offers the menus of Symeo MAP. Click a menu to display additional functions. The following menus are available: Base station: You can connect or disconnect to a FusionEngine base stations and edit the lpr.ini file. View: This menu is only active if you are connected to a FusionEngine.
® Symeo LPR -System ® LPR -2DB Product Documentation The toolbar offers you the following options: The Connect button: Select a mobile unit and establish a connection (only active if no connection is open). The Disconnect button: Terminate an active connection with the mobile unit (only active if a connection is open). 3 - POSITION DISPLAY If you are connected to a FusionEngine, the LPR-2DB transponders and the current position of the mobile unit are displayed in this area.
® Symeo LPR -System ® LPR -2DB Product Documentation 8.2 Display of Symeo MAP In Symeo MAP there is number of settings and displays for visualization. 8.2.
® Symeo LPR -System ® LPR -2DB Product Documentation Figure 55 - Incorrect length value (left) and correctly adapted cable offset (right) To get the cable offset values for all connected antennas: If several antennas are connected to the base station, first select an antenna by pressing the ‘A’ key The antenna should be located in the middle of the measurement range.
® Symeo LPR -System ® LPR -2DB Product Documentation 9 Network Settings Having a LPR station with TCP/IP interface the network settings for this station are described in this chapter. Therefore it is necessary to open a TCP/IP connection between your computer and the LPR station. 9.1 TCP/IP connection between PC and LPR-2DB station With delivery the LPR-2DB stations have the fixed IP-Address 192.168.1.99.
® Symeo LPR -System ® LPR -2DB Product Documentation Open the Command-Window: Windows Start Button Choose Run Enter cmd and click OK Enter in the cmd.exe window: ping 192.168.1.99 or the IP-address of the LPR-2DB station. Figure 56 – Ping LPR-2DB Station The LPR-2DB Station should answer with a ‚Reply‘. 9.2 Open Web Server Open your web browser. In the address bar of the web browser enter the IP-address of the LPR station: http://192.168.1.99. Press Enter.
® Symeo LPR -System ® LPR -2DB Product Documentation A connection is established with your LPR station. In the case of an HTTPS connection, you may see two dialog boxes. Confirm them both with OK. Then the Welcome page for the LPR station's Web server will appear. Click the function you want in the navigation bar. The individual functions are described in the following sections. You will be prompted to enter your information for authentication.
® Symeo LPR -System ® LPR -2DB Product Documentation The following menu is displayed: LAN: Overview about LAN settings of LPR station (static or dynamic IP address) (see chapter 9.3.1) Network: Network settings (see chapter 9.3.2) Serial-to-Ethernet: Settings of parameterization port (see chapter 9.3.3.1) Remote Access: (See chapter 9.3.4) Miscellaneous: Setting of time zone (see chapter 9.3.6) Special Functions: (see chapter 9.3.
® Symeo LPR -System ® LPR -2DB Product Documentation the SYMEO technical department about this. If the LPR station is set to „DHCP“ but does not get after the reboot within 60 sec an IP-address from the DHCP server the last applied fixed IP-address is used. Change Mode A button is labeled "DHCP" or "Static" depending on the "Current mode" field. Click this button to switch from "DHCP Active" mode to "Static IPAddress" mode or vice versa. IP-Address IP address of the LPR station (default: 192.168.1.
® Symeo LPR -System ® LPR -2DB Product Documentation disabled). The NTP server is a server on the network from which the system can request the current time. 9.3.3 Serial-to-Ethernet ttyAM1 Port number of the TCP/IP port via which the data from serial port (ttyAM1) is sent and received. ttyAM1 is the port for the parameterization interface (Service Port). (default: 3045) ttyAM2 Port number of the TCP/IP port via which the data from serial port ttyAM2) is sent and received.
® Symeo LPR -System ® LPR -2DB Product Documentation Connection Type Area Disabled The port is disabled and not reachable via TCP/IP. TCP – Listening on Data Port The LPR station is waiting for incoming connection on the “Data Port”. If the connection is opened successful you can open the parameterization port. TCP – Connection to Data Port using Reserve Port The LPR station establishes the connection to the entered server address.
® Symeo LPR -System ® LPR -2DB Product Documentation Data Port successful you get access to the binary port. „Variable Frame“ means activated „Byte Stuffing“ (no fixed protocol length). TCP – Fixed Frame – Listening on Data Port The LPR station is waiting for incoming connection on the “Data Port”. If the connection is opened successful you can open the binary port. „Fixed Frame“ means deactivated „Byte Stuffing“ (fixed protocol length).
® Symeo LPR -System ® LPR -2DB Product Documentation Extended system access („Remote Access“) enables console access via Telnet, SSH (Secure SHell), SCP (Secure CoPy) and via the serial port. This enables extended system information to be retrieved and troubleshooting to be carried out. We recommend that you disable all functions that are not required, see section "Settings". In extended system access, the user "SYMEO" has 'ROOT' privileges, i.e., full access to the system.
® Symeo LPR -System ® LPR -2DB Product Documentation settings 9.3.7 configuration as a backup. Accept settings/ System reboot As described in chapter 9.3.6 it is necessary to transmit the changes to the LPR station and afterwards reboot the station. Press button „Upload changes“ to load the changes. Scroll down to the end of the page and press „Reboot System“ to reboot the LPR station. 9.4 System status With this function, you can display the current system status.
® Symeo LPR -System ® LPR -2DB Product Documentation Click “Status" in the navigation bar. If you have not yet provided authentication information, you will be prompted to do so now (see section "Starting and using the Web server"). The Status page for the LPR station's Web server is displayed. The fields have the following meanings: Uptime 01:27:47 – Current system time up 20 min – Time since the last system start load average: 0.00, 0.00, 0.00 – Average system load for the last 1, 5 and 15 minutes.
® Symeo LPR -System ® LPR -2DB Product Documentation 0x2 Rev. C 0x3 Rev. D0 0x4 Rev. D1 0x5 Rev. E0 0x6 Rev. E1 0x7 Rev. E2 9.5 Diagnostics Connections: State of the active and inactive connection to the LPR station Partitions: Size and name of available partition of non-volatile memory. The size of receive buffer (Recv-Q) and send buffer (Send-Q) should be zero if possible. A long lasting value grater zero means problems when receiving or sending data.
® Symeo LPR -System ® LPR -2DB Product Documentation State: Status of connection Example 2: - successful established connection Proto Recv-Q Send -Q Local-Address Foreign Address State tcp 0 1 192.168.1.99:3045 192.168.1.1:1333 ESTABLISHED Of Connection Type „TCP - Listening on Data Port“ (ttyAM1) is enabled this table shows further connection information.
® Symeo LPR -System ® LPR -2DB Product Documentation The page Firmware Update of the WebServers of the LPR station is displayed. A firmware update is performed in several steps: Step 1: File system Step 2: Linux-Kernel Step 3: Optional (2D Application) Step 4: Restart Step 3 is exclusively for an update for 2D application. Otherwise this part can be skipped. 9.6.1 Step 1 – File system It is possible to make a copy of the actual firmware by downloading the firmware from the LPR station.
® Symeo LPR -System ® LPR -2DB Product Documentation Click the "Upload" button in the "Step 1 – flash ramdisk.gz" area. The file has been transferred. Click the "back: Firmware Update" link. Click the "Execute" button in the "Step 1 – flash ramdisk.gz" area to transfer the file to the non-volatile memory.
® Symeo LPR -System ® LPR -2DB Product Documentation Transfer progress is displayed in a message window.Transfer progress is displayed in a message window. You will know when this operation is complete because a message: "... done, file ramdisk.gz removed" will be output and a link "back: Firmware Update" is provided Click the "back: Firmware Update" link. 9.6.2 Step 2 – Linux Kernel It is possible to make a copy of the actual firmware by downloading the firmware from the LPR station.
® Symeo LPR -System ® LPR -2DB Product Documentation Click the "Browse" button in the "Step 2 – flash zImage" area. A file browser window will open. Navigate to the file you want and click "Open". Click the "Upload" button in the "Step 2 – flash zImage" area.
® Symeo LPR -System ® LPR -2DB Product Documentation The file has been transferred. Click the "back: Firmware Update" link. Click the "Execute" button in the "Step 2 – flash zImage" area to transfer the file to the non-volatile memory.
® Symeo LPR -System ® LPR -2DB Product Documentation Transfer progress is displayed in a message window. You will know when this operation is complete because a message: "... done, file zImage removed" will be output and a link "back: Firmware Update" is provided Click the "back: Firmware Update" link. 9.6.3 Step 3 – User space (optional) This step is exclusively for 2D-applications necessary and is executed the same way as described before. 9.6.
® Symeo LPR -System ® LPR -2DB Product Documentation To do this, click the "Execute" button in the "Step 3 – Restart" button. The system will be restarted. If the new firmware contains additional configuration files the settings you made are set to factory settings. This would be also applied for the IPaddress which iss et the tot he default value 192.168.1.99. Symeo recommends restoring the factory settings after a firmware update and reenter the customer settings. 9.
® Symeo LPR -System ® LPR -2DB Product Documentation Click "System Log" in the navigation bar. If you have not yet provided authentication information, you will be prompted to do so now. The last 10 system messages will be displayed. The message window is updated about once per second.
® Symeo LPR -System ® LPR -2DB Product Documentation 10Symeo 2D Protocol 10.1 Introduction / Basics The Symeo 2D protocol is the interface between the LPR 2D system and the user. To keep the protocol simple (i.e. easy to parse) the following aspects are considered: consistent data packet The protocol has a standard data packet with a fixed length. configuration The structure of the protocol can be configured by the user. It is possible to output only the required data.
® Symeo LPR -System ® LPR -2DB Product Documentation A protocol output is sent at regular intervals - independent of the availability of a valid position. The default output interval is 100 milliseconds. To set another output interval (e.g. 200 ms), insert the following parameter in the configuration file of the protocol: [OutputInterval_ms] 200 With the default configuration (OutputOnlyLockedTracks=1 in data field POSITION), only valid positions are sent (LOCKSTATE=2).
® Symeo LPR -System ® LPR -2DB Product Documentation 10.2 Binary format of the protocol For the binary format the entire data packet of the 2D protocol is transferred as binary data. This means that the binary format is more compact than the ASCII format, but is not humanreadable. 10.2.1 Data types The length of all data fields is a multiple of one byte. The data types are exclusively bit field or integer. Integers can be signed or unsigned.
® Symeo LPR -System ® LPR -2DB Product Documentation protocol by 0x7d 0x7d 0x5d 0x7e 0x7d 0x5e 0x7f 0x7d 0x5f Figure 59 – Substitution rules for byte stuffing Each time one of the three exclusive symbols occurs in the data packet it is replaced by two other symbols. In the worst case the whole data packet consists of exclusive symbols. In this case the length of the data packet is doubled.
® Symeo LPR -System ® LPR -2DB Product Documentation TIMESTAMP POSITION VELOCITY ORIENTATION POSITION-ERROR VELOCITY-ERROR ORIENTATION-ERROR USER-DATA SYSTEM-ERROR SATELLITE-STATE CRC END Figure 61 - General structure with all possible data fields The data fields START and END cannot be deactivated. All other data fields can be enabled and disabled in the configuration file. 10.2.4 Data fields In this chapter all data fields are described.
® Symeo LPR -System ® LPR -2DB Product Documentation 10.2.4.2 END The data field END indicates the end of each data packet. Name Length Type Description BINARY-STOP 1 unsigned int Exclusive symbol 0x7f to identify the end of a data packet. Entire length of data packet: 1 Byte 10.2.4.3 TIMESTAMP This data field specifies the time when a position was taken. Due to the calculation time for the position this time is always in the past.
® Symeo LPR -System ® LPR -2DB Product Documentation This data field is enabled in each data packet per default. It can be disabled via the following line in the configuration file: [SendPosition] 0 The protocol is configured per default, that only a reliable position is output (LOCKSTATE 2). If also unreliable positions should be output the following line in the configuration file has to be changed: [OutputOnlyLockedTracks] 0 10.2.4.
® Symeo LPR -System ® LPR -2DB Product Documentation Name Length Type Description POS-ERR-X 4 unsigned int estimated error of x-position in mm POS-ERR-Y 4 unsigned int estimated error of y-position in mm Entire length of data packet: 8 Byte This data field can be activated in the configuration file via the following line: [SendPosError] 1 10.2.4.8 VELOCITY-ERROR This data field indicates the estimated velocity error. The value is always positive.
® Symeo LPR -System ® LPR -2DB Product Documentation Name Length Type Description USER-DATA-SET 8 unsigned int User data Entire length of data packet: 8 Byte This data field can be activated in the configuration file via the following line: [SendUserData] 10.2.4.11 1 SYSTEM-ERROR This data field provides information about possible errors of the system. Up to five errors can be displayed simultaneously in one data packet. An error code is sent as long as an error exists.
® Symeo LPR -System ® LPR -2DB Product Documentation Name Length Type Description SAT-COUNT 1 signed int Number of satellites tracked The single allowed negative value is “-1”, it means “unknown”, e.g. in case of hardware failure. SAT-HDOP 2 signed int 10 * horizontal dilution of precision So the integer 123 would mean a 12.3 HDOP. A HDOP value of “-1” (given as “-10” in this format) means “unknown”, e.g. in case of hardware failure.
® Symeo LPR -System ® LPR -2DB Product Documentation 10.3 ASCII format of the Protocol For the ASCII format of the 2D protocol the entire data packet is transmitted as ASCII-code by letters, numbers and some special characters. This means the ASCII code is humanreadable. Due to the fewer encoding characters the data is transmitted not as compact as for the binary protocol, so the amount of data increases. 10.3.
® Symeo LPR -System ® LPR -2DB Product Documentation If desired additional data fields can be activated. The sequence of data field is hereby fix and cannot be changed. Figure 63 the structure of a data packet with all possible data fields in one data packet.
® Symeo LPR -System ® LPR -2DB Product Documentation SELECTED-FIELDS 8 The bit mask indicates which data fields are enabled and disabled in the data packet. (see chapter 10.4). Character coding: ######## The bit field is coded hexadecimal! UNDERLINE 1 Underline character (ASCII Code 0x5F) Entire length of data field: 13 Byte 10.3.3.2 END The data field END indicates the end of each data packet. It consists of the single symbol \n. Name Length Description ASCII-STOP 1 ASCII sign \n (0x0a) Enti
® Symeo LPR -System ® LPR -2DB Product Documentation 10.3.3.4 POSITION This data field displays the 2D position (x,y). Furthermore it displays the reliability of the position. Name Length Description X 1 ASCII character x POS-X 10 Signed x-Position in meters Character coding: +#####.### UNDERLINE 1 Underline character (ASCII Code 0x5F) Y 1 ASCII sign y POS-Y 10 Signed y-Position in meters Character coding: +#####.
® Symeo LPR -System ® LPR -2DB Product Documentation VEL-X 6 Signed velocity in x-direction in m/s Character coding: +##.## UNDERLINE 1 Underline character (ASCII Code 0x5F) VY 2 ASCII string vy VEL-Y 6 Signed velocity in y-direction in m/s Character coding: +##.## UNDERLINE 1 Underline character (ASCII Code 0x5F) Entire length of data packet: 18 Byte This data field can be enabled in the configuration file via the following line: [SendVelocity] 1 10.3.3.
® Symeo LPR -System ® LPR -2DB Product Documentation EY 2 ASCII string ey POS-ERR-Y 5 Estimated error of y-position in m Number coding: ##.## UNDERLINE 1 Underline character (ASCII Code 0x5F) Entire length of data packet: 16 Byte This data field can be activated in the configuration file via the following line: [SendPosError] 1 10.3.3.8 VELOCITY-ERROR This data field indicates the estimated velocity error. The value is always positive.
® Symeo LPR -System ® LPR -2DB Product Documentation This data field can be activated in the configuration file via the following line: [SendOrientationError] 10.3.3.10 1 USER-DATA This data field is used to indicate a user data packet. The meaning of the user data packet depends on the application.
® Symeo LPR -System ® LPR -2DB Product Documentation ERROR-CODE-3 2 Error code of 3rd error ERROR-VALUE-3 4 Error value of 3rd error UNDERLINE 1 Underline character (ASCII Code 0x5F) ERROR-CODE-4 2 Error code of 4th error ERROR-VALUE-4 4 Error value of 4th error UNDERLINE 1 Underline character (ASCII Code 0x5F) ERROR-CODE-5 2 Error code of 5th error ERROR-VALUE-5 4 Error value of 5th error UNDERLINE 1 Underline character (ASCII Code 0x5F) Entire length of data packet: 38 Byte A
® Symeo LPR -System ® LPR -2DB Product Documentation 10.3.3.13 CRC This data field displays the CRC (cyclic redundancy check) of each data packet. Name Length CRC 3 CRC-16 4 Description ASCII string crc CRC-value of message Character coding: #### Value is coded hexadecimal! Entire length of data field: 7 Byte A detailed description of CRCs as well as source code for the CRC can be found in chapter 10.5.
® Symeo LPR -System ® LPR -2DB Product Documentation 25 - 9 CRC 24 - 8 SYSTEM-ERROR 23 - 7 USER-DATA 22 - 6 ORIENTATION-ERROR 21 - 5 VELOCITY-ERROR 20 - 4 POSITION-ERROR 19 - 3 ORIENTATION 18 - 2 VELOCITY 17 - 1 POSITION 16 0 Figure 64 - Mapping Bitmask – Data fields TIMESTAMP 10.5 CRC Calculation To detect errors during data transmission, the data field CRC can be activated. For CRC the CRC-16-IBM is used with the polynomial x16+x15+x2+1.
® Symeo LPR -System ® LPR -2DB Product Documentation // Adds calculation for an 8 bit value to crc. // Initially crc should be zero. Uint16 CalcCRC8(Uint16 crc, Uint8 value) { crc = (crc >> 8 ) ^ crc_table[(crc & 0xFF) ^ value]; return crc; } 10.6 Error Codes If the system identifies self-contained an error (self-diagnosis), a system error is sent. The error is sent as long as the error is not repaired. I.e.
® Symeo LPR -System ® LPR -2DB Product Documentation once per second. But this can also happen if the line of sight between cell master and a single transponder is broken (e.g. an obstacle between in the line of sight). To detect a broken master, we count the number of IDLE messages of a single cell in the last 60 seconds.
® Symeo LPR -System ® LPR -2DB Product Documentation 10.6.2.5 0x07 – LPR 1D broken This error is reported if an LPR 1D system is broken (no valid measurement received for more than 1 second). 10.6.2.6 0xff – more than five errors active There are currently more than five errors active. The error value is set to 0xffff. 10.6.
® Symeo LPR -System ® LPR -2DB Product Documentation 11 Appendix A: Agency certifications For FCC labeled versions only! United States (FCC) and Canada (Industry Canada) Radiofrequency radiation exposure Information: This equipment complies with FCC/IC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance of 20 cm between the radiator and your body.
® Symeo LPR -System ® LPR -2DB Product Documentation Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help For Compact Station (mobile unit): This device has been designed to operate with the antennas listed below.
® Symeo LPR -System ® LPR -2DB Product Documentation For Integral station (LPR-2DB): This device has been designed to operate with the integrated antenna. Antennas not included in this list are strictly prohibited for use with this device. Only antenna cables delivered by Symeo are allowed to use. Usage of other antenna cables may void the FCC authorization to operate this equipment. Canada (Industry Canada) This Class [B] digital apparatus complies with Canadian ICES-003.
® Symeo LPR -System ® LPR -2DB Product Documentation 6 dBi Omnidirectional Antenna A -3 dB Antenna Connector Type N A = 190mm d = 20mm 30° 0 dB vertical -3 dB 10 dBi Omnidirectional Antenna Antenna Connector Type N A = 440mm d = 20mm A 8,5° -3 dB 0 dB -3 dB 9° -3 dB 0 dB -3 dB vertical 23 dBi Planar Antenna B Antenna Connector Type N 9° A = 305mm A B = 305mm vertical d = 25mm -3 dB 0 dB -3 dB horizontal 13 dBi Sector Antenna -3 dB d Antenna Connector Type N A A = 500mm B = 90mm d = 80mm