Accident avoidance system

Data processing: vehicles – navigation – and relative location – Relative location – Collision avoidance

Reexamination Certificate

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Details

C701S213000, C701S045000, C701S117000

Reexamination Certificate

active

06405132

ABSTRACT:

BACKGROUND OF THE INVENTION
1.1 Field of the invention
This invention is in the fields of automobile safety, intelligent highway safety systems, accident avoidance, accident elimination, collision avoidance, blind spot detection, anticipatory sensing, automatic vehicle control, intelligent cruise control, vehicle navigation and other automobile, truck and train safety, navigation and control related fields.
The invention relates generally to an apparatus and method for precisely determining the location and orientation of a host vehicle operating on a roadway and location of multiple moving or fixed obstacles that represent potential collision hazards with the host vehicle to thereby eliminate collisions with such hazards. In the early stages of implementation of the apparatus and method and when collisions with such hazards cannot be eliminated, the apparatus and method will generate warning signals and initiate avoidance maneuvers to minimize the probability of a collision and the consequences thereof. More particularly, the invention relates to the use of a Global Positioning System (“OPS”), differential GPS (“DGPS”), other infrastructure-based location aids, cameras, radar and laser radar and an inertial navigation system as the primary host vehicle and target locating system with centimeter accuracy. The invention is further supplemented by a digital computer system to detect, recognize and track all relevant potential obstacles, including other vehicles, pedestrians, animals, and other objects on or near the roadway. More particularly, the invention further relates to the use of centimeter-accurate maps for determining the location of the host vehicle and obstacles on or adjacent the roadway. Even more particularly, the invention further relates to an inter-vehicle and vehicle to infrastructure communication systems for transmitting GPS and DGPS position data, as well as, relevant target data to other vehicles for information and control action. The present invention still further relates to the use of neural networks and neural-fuzzy rule sets for recognizing and categorizing obstacles and generating and developing optimal avoidance maneuvers where necessary.
Automobile accidents are one of the most serious problems facing society today, both in terms of deaths and injuries, and in financial losses suffered as a result of accidents. The suffering caused by death or injury from such accidents is immense. The costs related to medical treatment, permanent injury to accident victims and the resulting loss of employment opportunities, and financial losses resulting from damage to property involved in such accidents are staggering. Providing the improved systems and methods to eventually eliminate these deaths, injuries and other losses deserves the highest priority. The increase in population and use of automobiles worldwide with the concomitant increased congestion on roadways makes development of systems for collision elimination even more urgent. While many advances have been made in vehicle safety, including, for example, the use of seatbelts, airbags and safer automobile structures, much room for improvement exists in automotive safety and accident prevention systems.
There are two major efforts underway that will significantly affect the design of automobiles and highways. The first is involved with preventing deaths and serious injuries from automobile accidents. The second involves the attempt to reduce the congestion on highways. In the first case, there are approximately forty two thousand (42,000) people killed each year in the United States by automobile accidents and another several hundred thousand are seriously injured. In the second case, hundreds of millions of man-hours are wasted every year by people stuck in traffic jams on the world's roadways. There have been many attempts to solve both of these problems; however, no single solution has been able to do so.
When a person begins a trip using an automobile, he or she first enters the vehicle and begins to drive, first out of the parking space and then typically onto a local or city road and then onto a highway. In leaving the parking space, he or she may be at risk from an impact of a vehicle traveling on the road. The driver must check his or her mirrors to avoid such an event and several electronic sensing systems have been proposed which would warn the driver that a collision is possible. Once on the local road, the-driver is at risk of being impacted from the front, side and rear, and electronic sensors are under development to warn the driver of such possibilities. Similarly, the driver may run into a pedestrian, bicyclist, deer or other movable object and various sensors are under development that will warn the driver of these potential events. These various sensors include radar, optical, infrared, ultrasonic, and a variety of others sensors, each of which attempts to solve a particular potential collision event. It is important to note that in none of these cases is there sufficient confidence in the decision that the control of the vehicle is taken away from the driver. Thus, action by the driver is still invariably required.
In some proposed future Intelligent Transportation System (ITS) designs, hardware of various types is embedded into the highway and sensors which sense this hardware are placed onto the vehicle so that it can be accurately guided along a lane of the highway. In various other systems, cameras are used to track lane markings or other visual images to keep the vehicle in its lane. However, for successful ITS, additional information is needed by the driver, or the vehicle control system, to take into account weather, road conditions, congestion etc., which typically involves additional electronic hardware located on or associated with the highway as well as the vehicle. From this discussion, it is obvious that a significant number of new electronic systems are planned for installation onto automobiles. However, to date, no product has been proposed or designed which combines all of the requirements into a single electronic system. This is the intent of this invention.
The safe operation of a vehicle can be viewed as a process in the engineering sense. To achieve safe operation, first the process must be designed and then a vehicle control system must be designed to implement the process. The goal of a process designer is to design the process so that it does not fail. The fact that so many people are being seriously injured and killed in traffic accidents and the fact that so much time is being wasted in traffic congestion is proof that the current process is not working and requires a major redesign. To design this new process the information required by the process must be identified, the source of that information determined and the process designed so that the sources of information can communicate effectively to the user of the information, which will most often be a vehicle control system. Finally, the process must have feedback that self-corrects the process when it is tending toward failure.
Although it is technologically feasible, it is probably socially unacceptable at this time for a vehicle safety system to totally control the vehicle. The underlying premise of this invention, therefore, is that people will continue to operate their vehicle and control of the vehicle will only be seized by the control system when such an action is required to avoid an accident or when such control is needed for the orderly movement of vehicles through potentially congested areas on a roadway. When this happens, the vehicle operator will be notified and given the choice of exiting the road at the next opportunity. In some implementations, especially when this invention is first implemented on a trail basis, control will not be taken away from the vehicle operator but a warning system will alert the driver of a potential collision, road departure or other infraction.
Let us consider several scenarios and what information is required for the vehicle control process to prevent accid

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