Data processing: vehicles – navigation – and relative location – Vehicle control – guidance – operation – or indication – Vehicle diagnosis or maintenance indication
Reexamination Certificate
1999-03-15
2001-02-06
Zanelli, Michael J. (Department: 3661)
Data processing: vehicles, navigation, and relative location
Vehicle control, guidance, operation, or indication
Vehicle diagnosis or maintenance indication
C369S021000
Reexamination Certificate
active
06185490
ABSTRACT:
FIELD OF THE INVENTION
This invention in general relates to vehicle data recorders. More specifically, the invention is a vehicle data recorder using microprocessor controlled electronics a two stage random access memory, and a non-volatile memory to retain the vehicle identification number and data on impact forces, brake activation, seat belt use, vehicle speed, vehicle direction, vehicle rollover, and the date and time of the incident.
BACKGROUND OF THE INVENTION
Prior Art
In 1997, the most recent year for which data is available, there were 6,764,000 police reported accidents according to the National Highway safety Board. These accidents caused an estimated $150,000,000,000.00 in economic losses and about 47,000 lives. This invention, hereinafter referred to as the Vehicle Data Recorder, or “VDR” is designed to save lives and money by providing instant access to critical information about a motor vehicle accident.
The VDR is unique because it is a self-contained modular unit easily installed on any motor vehicle. It will monitor and record data on eight data channels, three from internal event triggered sensors, one from an internal electronic compass, and four from the host vehicle. The data will be stored in memory in a time correlated file format which upon power interruption, will be transferred to permanent data storage, where it will be available for download to any Windows® based computer via a serial connection.
Consider the following example. A squad is called to the scene of a single car motor vehicle. The patient is unconscious and unable to tell the paramedics what happened. The paramedics would treat this patient for obvious visible life threatening injuries and transport him to the nearest trauma center. The trauma center would try to stabilize the patient and start test to determine the extent of the patient's injuries. With access to the type of information provided by this invention, you would know the vehicle identification number and that the vehicle was involved in a head on collision on Jun. 9, 1998 at 7:57:35 PM. You would know that the vehicle was traveling at 47.5 mph at the time of the 10 g collision and that the driver had swerved 30 degrees to his left and applied his brakes exactly 0.3 sec prior to the crash and that he had been wearing his seatbelt.
Instant access to this type of detailed information will allow EMS and subsequently hospital personnel to focus attention and resources upon the most serious and life threatening injuries. It will also start the clock on the “Golden Hour” with a time certain, thus encouraging a quicker decision for a load and go situation.
Medical personnel would not be the only group interested in this data. The following would have at least as much interest in this information as well.
1. Police.
2. Insurance Companies.
3. State and Federal Government agencies.
4. Automotive companies.
The foundation upon which all accident investigations is built is the written report compiled by the police officers at the scene. This report contains a variety of information, some of it based upon observation, such as, road and weather conditions, or hazardous environmental or construction obstacles that might have contributed to the accident. The balance of the report is comprised of estimation, hearsay, or calculation, I.E. the speed of the vehicle, was the seatbelt fastened, how hard and where was the initial impact, and did a rollover occur.
The availability of an electronic accident report coded with the vehicle identification number for vehicle identification and containing precise information about a motor vehicle accident would allow the insurance companies to create a more accurate database from which actuarial calculations could be made. More accurate calculations would lead to a more equitable distribution of risk and therefore rates could be based upon car and driver records that would be more accurate then anything currently available. Government involvement in highway safety has always had the dual aim of saving lives, and reducing the enormous economic losses attributed to motor vehicle accidents. To this end they have maintained a data base on all motor vehicle accidents reported to them by the police. The electronic accident report will provide precise information from which to build a data base.
Vehicle data recorders have been the subject of earlier patents and often they have included inputs from brake pedal travel, accelerator position, turn signals, headlights, acceleration forces, and some have even included video inputs. Most vehicle data recorders, however, have concentrated on a static laboratory environment and staged accidents using specifically designed test vehicles. Data collection devices used on these test vehicles are expensive and sophisticated. Some of these devices include:
1. Gyroscopic devices.
2. Laser devices.
3. Video cameras.
4. Impact sensors.
5. Accelerometers.
The advantages and disadvantages of these devices in a real-world environment are as follows. Gyroscopic devices have proved themselves to be effective and accurate in a laboratory test vehicle, and in aircraft inertial navigation systems. They are, however, expensive, require a relatively long warm up period before stabilization can occur, and they consume a relatively large amount of power. In fact the power consumption of a gyroscopic device would require a complete re-design of the typical motor vehicle electrical system. Lasers also consume large amounts of power and are limited to being a reference from which to measure vehicle distortion after an impact. Video cameras, are now being used in some vehicles as stand alone data collection devices, but the cameras focus will always be on the outside events. Specialized impact sensors, and accelerometers fall into the same broad category. They each have a function in a staged accident, but are not of any beneficial use in the real world unless coupled with a more encompassing system like the Vehicle Data Recorder.
Aviation has developed data collection devices that are unique to the demanding aspects of aviation. Flight Data Recorders have proved invaluable to the National Transportation and Safety Board when they had to investigate accidents. The unique and challenging nature of flight, and the tremendous forces that occur in an airplane crash, have contributed to the development of a very sophisticated recorder that is coupled to all essential operating systems in an aircraft that will withstand the tremendous forces of an airplane crash. The system is very expensive, in fact is so expensive that it is not even used in private aircraft Several real world events and advances in technology first led me to conceive of the Vehicle Data Recorder. The three events are the car crash that killed princess Di, and the inability of the police to determine exactly what happened. An airplane crashed in Okinawa, and I was on an emergency call to an automobile accident where the hospital ask me a series of questions about the accident to try to determine the mechanism of injury. The technological advances in computer hardware, specifically faster and cheaper microprocessors, and the larger capacity storage devices developed within the past two years led me to believe that they might be utilized in such a way as to answer my questions about mechanism of injury.
The purpose of the Vehicle Data Recorder, therefore is to provide an economical and reliable means to collect essential real world data about how a vehicle behaves during an accident. Following is a summary of relevant vehicle data recorder patents.
1. Decker et al U.S. Pat. No. 4,533,962.
A method and apparatus for sensing and recording diverse operational and performance characteristics of automotive vehicles and the like has a plurality of transducers directly associated with different mechanical functions of the vehicle for sensing their operating characteristics in relation to time as well as generating analog signals representative of certain functions and combining them with digital signals representing other functions.
LandOfFree
Vehicle crash data recorder does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Vehicle crash data recorder, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Vehicle crash data recorder will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2610117