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| United States Patent | 5218367 |
| Link to this page | http://www.wikipatents.com/5218367.html |
| Inventor(s) | Sheffer; Eliezer A. (San Diego, CA); Thompson; Marco J. (San Diego, CA) |
| Abstract | A vehicle tracking system makes use of a conventional cellular telephone
network including a plurality of fixed cellular transmitter sites each
covering a predetermined area. The system includes a plurality of cellular
signal processing units for installation at hidden locations in vehicles
to be monitored. Each unit is connected to one or more different sensors
in the vehicle, at least one of the sensors being a break-in detector for
detecting tampering with the vehicle, and to a cellular antenna, and
includes a controller for monitoring the sensor outputs and initiating an
emergency message transmission to a remote monitoring station in the event
of actuation of a sensor. The car processing unit monitors site
identifying signals and signal strengths of transmissions from adjacent
cellular transmitter sites in an emergency, and the emergency message
includes vehicle identifying information, cell site identifying
information, and signal strength information which will be dependent on
distance from the cell site. The monitoring station includes a computer
for determining and displaying an approximate vehicle location from the
incoming cell site identifying and signal strength information. |
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Title Information  |
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Drawing from US Patent 5218367 |
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Vehicle tracking system |
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| Publication Date |
June 8, 1993 |
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Title Information |
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References |
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| Market Size |
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Estimate the gross annual revenues of the relevant market
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| Reasonable Royalty |
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Public's "Guesstimation" of Royalty Value
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Market Review |
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Technical Review |
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Claims |
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We claim:
1. A vehicle tracking system, comprising:
an array of fixed cellular signal receiving and transmitting units each covering a predetermined area and forming part of a cellular telephone network, each fixed cellular unit including means for transmitting cellular voice and control channel
signals identifying said unit;
a signal processing unit for mounting in a vehicle, the unit including signal generating means for generating emergency signals on detection of an emergency condition, the signal generating means including means for continuously scanning all
voice and control channel signals from any fixed cellular units within range of the vehicle during an emergency condition, means for determining the signal strengths of any received cellular voice and control signals, and means for transmitting an
emergency signal from the vehicle for each set of received signals, each emergency signal including the received cellular control signals and determined signal strengths; and
a central monitoring means for receiving said emergency signals and for computing an approximate vehicle location from said cellular control signals and signal strengths.
2. The system as claimed in claim 1, further including sensor means linked to said signal processing means for detecting an emergency in said vehicle, said signal processing means including means for monitoring the output of said sensor means
and operating said emergency signal generating means on actuation of said sensor means.
3. The system as claimed in claim 1, wherein said emergency signal includes vehicle identifying information.
4. The system as claimed in claim 1, including a telecommunications switching office connected to said fixed cellular units, said central monitoring means being coupled to said telecommunications switching office, and said transmitting means
comprising means for transmitting said emergency signal to said central monitoring means via one of said fixed cellular units and said telecommunications switching office.
5. The system as claimed in claim 1, wherein said signal receiving and transmitting means comprises a cellular transceiver and at least one cellular antenna connected to said transceiver.
6. The system as claimed in claim 5, including a pair of cellular antennas connected to said transceiver, and control means for alternately receiving incoming signals from adjacent cell sites from the two antennas and for comparing said signals
and transmitting the strongest set of signals in said alarm message for ensuring omni-directional reception of signal strength from all adjacent cell sites.
7. The system as claimed in claim 1, wherein said central monitoring means includes a computer, connecting means for connecting the computer to receive incoming alarm signals via a telephone line, and display means for displaying output
information from said computer, the computer including means for receiving and storing incoming alarm messages, means for displaying vehicle identifying information on said display means in response to an incoming alarm signal means for computing an
approximate vehicle location from the incoming alarm signal information on adjacent cellular transmitter units and signal strengths, and means for displaying the computed vehicle location on the display means.
8. The system as claimed in claim 1, including a plurality of identical signal processing units mounted in vehicles to be monitored and in tracking vehicles for tracking said monitored vehicles, the central monitoring means including means for
receiving incoming alarm information signals from processing units in a first vehicle being tracked and in tracking vehicles chasing that vehicle and for computing approximate vehicle locations for the first vehicle and the tracking vehicles, and for
comparing the computed tracking vehicle locations to the actual tracking vehicle locations and correcting the first vehicle location in accordance with any discrepancy between the computed and actual tracking vehicle locations.
9. The system as claimed in claim 1, wherein the central control station processing means includes means for determining the area covered by the fixed cellular units detected by the signal processing unit, means for displaying a map of the
determined area and for displaying a computed vehicle location at the appropriate position on the map, and for up-dating the displayed vehicle location in response to incoming cell identifying and signal strength information from the vehicle.
10. The system as claimed in claim 2, wherein the sensor means includes a towing sensor for detecting towing of the vehicle, a sensor for detecting start of the vehicle without use of an ignition key, and an emergency button for operation by the
driver of the vehicle.
11. The system as claimed in claim 10, wherein said cellular processing unit includes a power input, monitoring means connected to said sensors and having an output connected to said signal generating means, said monitoring means being connected
to said power input at all times, and switching means connected between said power input and said signal generating means, said switching means comprising means for normally disconnecting said signal generating means from said power input when the
vehicle ignition is off and for connecting the signal generating means to the power input when the ignition is on, and said monitoring means comprising means for operating said switching means to connect said signal generating means to the power input on
actuation of any of said sensors while the vehicle ignition is off.
12. The system as claimed in claim 1, including a pair of alternative power inputs to said unit, the first input comprising means for connection to a vehicle battery output, and a back-up battery connected to the other power input for supplying
power to the unit in the event of loss of vehicle battery power.
13. The system as claimed in claim 1, wherein said signal generating means comprises a transceiver for receiving and transmitting cellular radio signals, and a controller for controlling said transceiver to transmit said alarm message in the
event of an emergency.
14. The system as claimed in claim 13, including microphone and speaker means connected to said controller, the controller including means for activating said microphone and speaker means in the event of receipt of a listen-in command from said
central monitoring means to allow an operator at said central monitoring means to listen to sounds in the vehicle, the central monitoring means including means for dialing up said vehicle unit and transmitting said listen-in command to said unit on
receipt of a selected control input from said operator.
15. A method of locating and tracking a vehicle, comprising the steps of:
installing a modified cellular phone unit in a vehicle including means for detecting an emergency situation in the vehicle and means for generating and transmitting a sequence of emergency signals at periodic intervals after detection of an
emergency situation while the emergency situation exists, the cellular phone unit being usable as a standard cellular phone during non-emergency conditions;
detecting an emergency situation in the vehicle;
continuously monitoring and scanning the cell voice and control channel identifying information transmitted from cellular phone network cell sites within range of the vehicle in the cellular phone unit in the vehicle while the emergency situation
exists;
extracting and storing signal strength data in the vehicle unit from the signals received from adjacent cell sites during each scan;
continuously updating the stored signal strength data using the continuously scanned voice and control channel signals during the emergency situation;
transmitting emergency signals at predetermined intervals from the vehicle unit to a central controller at a remote monitoring station during the emergency situation, each emergency signal including an alarm code, vehicle identifying information,
and cell identifying and signal strength information generated from the stored signal strength data; and
processing the alarm information at the central computer to compute an approximate vehicle location from the cell identifying and relative signal strength data.
16. The system as claimed in claim 1, wherein the signal processing unit comprises a modified standard vehicle cellular phone unit. |
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Claims |
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Description |
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BACKGROUND OF THE lNVENTION
The present invention relates generally to vehicle tracking and locating systems for locating vehicles in an emergency.
In U.S. Pat. Nos. 4,891,650 and 5,055,851 of Sheffer a vehicle locating system was described which relied on the use of the existing nationwide cellular radio network used in mobile telecommunications (cellular phone system). Cellular
telephone networks rely on a fixed array of cell sites, each cell site covering a predetermined area and having a wireless signal detecting and generating unit at a central location in the area. These cell sites receive and transmit signals to and from
cellular phones within their area on their own set of frequencies, and are linked via conventional land lines to a mobile telecommunication switching office (MTSO) for transmission to other cell sites, receivers, or conventional phones via a telephone
company central office (CO).
U.S. Pat. Nos. 4,891,650 and 5,055,851 describe a system for detecting an emergency in a vehicle, such as forced entry, and using the existing cellular radio network to transmit an alarm signal from the vehicle to adjacent cell sites. The
mobile telephone switching or MTSO is modified in order to transmit a signal indicating the signal strength of the received alarm signal to an external, to telephone company, central alarm station. The transmitted signal also includes vehicle
identifying information. At the central alarm station, the approximate vehicle position can be estimated based on the relative strengths of the signal received from the vehicle at adjacent cell sites. A police car can then be dispatched towards the
approximate vehicle location. The tracking vehicle turns on its own cellular car radio so that the tracking vehicle is itself tracked using the same technique. In this way, an operator in the central alarm monitoring station can observe the relative
position of the original vehicle and the tracking vehicle or vehicles. Since the exact position of the tracking vehicle is known, this can be used to provide the tracking vehicle with instructions for moving towards the target.
One disadvantage of this previous vehicle location system is that it requires modification of the software at the MTSO so that it will generate the required signal strength signals for transmission to the central monitoring station. This would
be a relatively complex and expensive procedure.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a new and improved vehicle tracking system for locating and tracking vehicles in emergency situations.
According to the present invention, a vehicle tracking system is provided which comprises a cellular processing unit for installation in a vehicle, a plurality of alarm sensors connected to the cellular unit, the sensors including break-in
sensors for detecting an ignition start without the car key, towing or emergency panic switch, at least one cellular antenna connected to the cellular processing unit, and a remote alarm monitoring station including a computer connected to a central
telephone network. The cellular processing unit mounted in the vehicle includes a controller for monitoring the output of the sensors and initiating an alarm sequence in the event of actuation of any one of the sensors, and a cellular transceiver for
receiving cell identifying information and signal strength information from all adjacent fixed cellular phone sites in the vicinity when an alarm sequence is initiated, the controller being programmed to dial up a predetermined telephone number
corresponding to the alarm monitoring station computer in the event of an alarm and to transmit a packet of information to the computer via an adjacent cellular phone site, MTSO and central telephone office. The packet of information includes an alarm
code, vehicle identifying information, adjacent cell identifying information, and the relative signal strengths of signals received by the transceiver from adjacent cells. The computer at the alarm monitoring station is programmed to determine the
actual cell site locations from the incoming cell identifying information, and to compute an approximate vehicle location from the cell relative signal strength information.
Preferably, the computer is programmed to display a map of the active cells region on a suitable display monitor linked to the computer and to indicate the computed vehicle location on the map in the form of a blinking colored dot or the like.
According to a preferred embodiment of the invention, the system also includes similar cellular processing units for installation in field response unit (FRU) vehicles to be dispatched to the approximate vehicle location computed in the event of an
emergency, and the computer is also programmed to compute the approximate locations of these FRU vehicles and display them on the map in the form of different colored dots. The actual location of the FRU vehicles can also be entered manually by the
computer operator and compared to the computed locations in order to indicate a correction factor to be applied to the computed approximate location of the vehicle being sought, allowing the position to be continuously corrected as the FRU vehicles home
in on the target.
The cellular processing unit installed in the vehicle is preferably similar to a conventional cellular telephone unit and includes all the circuitry necessary for operation as a conventional cellular phone. However, the circuitry is modified to
enable the unit to monitor the sensors and prepare and send the alarm message if an alarm condition is detected. The unit includes a memory or monitoring unit connected to the alarm sensors, a central controller, and the transceiver for receiving
incoming signals and for transmitting outgoing signals via the antenna. The controller is preferably linked to a conventional cellular phone handset for normal cellular phone communications. The unit is connected via a switching circuit to a power
supply. Preferably, the unit is normally powered by the standard vehicle battery, but is also connected to a back-up battery for use in the event that the vehicle battery power is too low. The switching circuit is arranged to connect the memory unit to
the power supply at all times, but connects the power supply to the remainder of the unit only while the ignition is on or when an alarm condition is detected. The memory unit is arranged to monitor the sensor outputs at all times and to connect the
power supply to the remainder of the circuit if an alarm is detected while the ignition is off. Thus, break-in of a parked vehicle will initiate an alarm sequence. The controller is programmed to operate alternatively either as a standard cellular
communication unit or to transmit alarm messages to a pre-programmed telephone number, and will disable the cellular handset while an alarm message is being transmitted.
This system allows a conventional cellular telephone network to be used as part of a vehicle tracking system in the event of an emergency, without any modification to the hardware or software of the existing cellular phone network being required. All that is necessary is to install the modified cellular processing units in all vehicles to be protected using this tracking system so that they can communicate with one or more alarm monitoring stations in the event of an emergency, the monitoring
station computers being | | |
