FR3105541A1 - Global automatic process and device intended to facilitate the parking of vehicles on the road. - Google Patents

Abstract

Global automatic process and device intended to facilitate the parking of vehicles on the road. The method according to the invention makes it possible to automatically and dynamically create and update a reference database of on-street parking spaces or the like, and to dynamically update availability information for these locations. This information is used to guide users to the portion (s) of street depending on the direction of traffic, where the probability of finding an available location is greater or lesser. The device according to the invention is used or integrated in vehicles and detects, by algorithmic analysis, information from GPS sensors, accelerometer, gyrometer, etc. the maneuvers performed by the vehicle to enter or leave a parking space. Each maneuver, niche, battle, herringbone, is identifiable by a series of events which is specific to it. When the device detects that a parking space has just been occupied or vacated, it sends the information to a central system which analyzes it algorithmically to create and update the reference database of parking spaces, with their status. availability. This information is used for user guidance. Guidance can be integrated into “Google Maps” or “Waze” type navigation applications.

Description

Global automatic process and device intended to facilitate the parking of vehicles on the road

The present invention relates to a method for dealing with two problems relating to on-street parking (urban, peri-urban or other) or other: (1) the creation and dynamic and automatic updating of a database of parking locations. parking spaces available on the road taking into account the direction of traffic, (2) dynamic and automatic updating of information on the availability of parking spaces created by (1).

Currently, to determine the location of on-street parking spaces and their availability, there are solutions based on the analysis of availability information detected at the level of the place itself, using sensors, cameras, etc. .. installed or integrated either in the road itself, or in the street furniture, or in the facade or on the balconies of buildings. This type of solution requires the installation of significant infrastructures and heavy investments to place the sensors / cameras on public roads and manage them in real time.

Other solutions exist, based on the use of sensors integrated in vehicles, or mobile units used in vehicles and having sensors such as GPS and accelerometer, or even ultrasonic obstacle detectors, which analyze the traffic. environment of the vehicle to detect available locations, sometimes even when the vehicle is in motion, but on the one hand, they remain conditioned by the creation and the "static" update beforehand of a database of reference identifying the available places recognized by the system, and on the other hand they can lead to the generation of a large data flow difficult to manage by a central processing system.

The method of the invention overcomes these various drawbacks, by making it possible to dispense with any installation of heavy and expensive infrastructures, since it uses a device used or integrated in the vehicles themselves, which determines thanks to algorithms, when these vehicles perform maneuvers to enter or exit a parking lot, the location of parking spaces, the side of the lane and the availability status, and which communicates this information to a central system which analyzes it using algorithms to build and automatically and dynamically update the reference database of parking spaces with their occupancy status. This reference base is used to guide users to the portion or portions of the street depending on the direction of traffic in which the probability of finding an available location is greater or lesser. Guidance can also be integrated into navigation applications of the “Google Maps” or “Waze” type.

The process works as follows:

1. The device used or integrated in the vehicle analyzes, using algorithms, the information coming from its sensors (GPS, accelerometer, gyrometer, etc.) to determine whether the vehicle has just performed a parking maneuver (in parallel, in battle, herringbone or other) or a parking exit maneuver. Each maneuver is identifiable by a series of events coming back from its own sensors, which allows the algorithms to identify said maneuver.

2. When the device identifies that the vehicle has just parked, the following information is sent to the central system: position, side of the lane, state of availability, in this case “occupied”.

3. When the device identifies that the vehicle has just left a parking space, the following information is sent to the central system: position, side of the lane, state of availability, in this case “free”.

4. When the central system receives the information from 2) or 3), it stores them in a “to be processed” state.

5. The central system applies algorithms on the "to be processed" data to determine if the parking space is valid. If it is, a valid location record is created, if it has not already been created, along with its free / busy information. If it is not valid, the information is kept in a "to be processed" state.

6. The central system maps the information stored in its database onto a mapping system including streets, street portions and direction of traffic, allowing to probabilistically calculate the portion of street according to the direction of traffic or locations of traffic. free parking spaces are likely to be located. This information on portions of the street where there is a greater or lesser probability of finding a free parking space is calculated in real time and stored.

7. Using an application on a smartphone or integrated in the vehicle, on-board computer or integrated navigator, the user will be able to view these portions of the street, and may benefit from guidance to these portions of the street according to the direction of traffic. Guidance can be integrated into “Google Maps” or “Waze” type navigation applications.

Detection is different depending on whether it is an occupied or free parking space:

1) Method for detecting an occupied parking space (example for a niche) :

The method of detecting an entrance parking space consists of the algorithmic analysis of the information coming from the sensors allowing the device to determine that the vehicle has just made a niche, and occupies a parking space:

• Feedback from the accelerometer indicating that the vehicle is starting to reverse, combined with the angle information given by the gyroscope, with an angle of plus or minus 45 °, of successive forward and reverse movements. rear at an angle between 0 ° and approximately 30 ° and tending towards 0 °, then immobilization detected by the accelerometer and / or GPS, through which the device determines that the vehicle has just performed a parking maneuver in niche.

2 ) Method for detecting a free parking space (example for exiting a niche) :

The method of detecting an exit parking space consists of the algorithmic analysis of the information coming from the sensors allowing the device to determine that the vehicle has just performed a parking space exit maneuver, and has just released a parking space. :

• Feedback from the accelerometer and the GPS indicating that the vehicle is moving, backing up then forward successively at an angle between 0 ° and about 15 °, then forwards at an angle of between about 30 ° and 45 °, then forwards at an angle close to 0 °, whereby the device determines that the vehicle has just left a parallel parking space.

The present invention can be broken down into several variants.

The device can be integrated into the on-board equipment of the vehicle and reuse the sensors and computer processing units available on board, or can be independent with its own sensors (Fig. 1: 1.1, 1.2 and 1.3) and its control units. execution of applications for information processing (Fig. 1: 1.4), processor, memory, storage, battery or other power supply element (Fig. 1: 1.6), and used in the vehicle. Another possibility is to base the device on equipment of the “smartphone” type used in the vehicle.

The device (Fig. 2: 2.1) sends the information (Fig. 2: 2.4) regarding the parking spaces to the central system (Fig. 2: 2.2) via a radio communication unit (Fig. 1: 1.5) or the like. The format of the information must be independent of the model, make, etc. of the vehicle in order to allow the application of the process regardless of the vehicle.

The central system has computer processing units and information storage units for the creation and updating of the reference database. It offers a single interface (Fig. 2: 2.5) for communicating information on the presence and availability of a parking space to a specific guidance application or to “Google Maps” or “Waze” type navigation applications (Fig. 2 : 2.3).

The type of space managed by the central system can be extended beyond lawful parking spaces: unauthorized space, free space, paid space, paid space on certain time slots, delivery space, authorized delivery space on certain time slots , places for people with reduced mobility, places in public parking areas, places in private parking areas, places in residential parking areas, etc.

Guidance to street sections can be refined according to different parameters: whether or not to take into account the direction of traffic, type of user, paying user, free user, priority user, user preferences

TITLE:

Global automatic process and device intended to facilitate the parking of vehicles on the road

Claims (5)

Global automatic method intended to facilitate the parking of vehicles on the road or other, characterized in that the detection of the locations and their state of availability is carried out by a device intended to be used in a vehicle or integrated into the on-board equipment which thereof. algorithmically analyzing the information from its on-board sensors detects whether the vehicle has just performed a parking maneuver or an exit maneuver, and accordingly locates an on-road or other parking spot, and also determines the side of the lane where the location is, and the availability of the location, occupied or free, this position, side of the track and availability information is sent to a central system processing them through algorithms to build and update automatically and dynamically the reference database of parking spaces with their occupancy status ation, base which serves to guide users towards the portion or portions of the street depending on the direction of traffic in which the probability of finding an available location is greater or lesser. Device according to Claim 1), characterized in that it is intended for use in a vehicle or integrated into the on-board equipment and that it is cumulatively composed of geolocation sensors of the GPS type, accelerometer, gyrometer, and other sensors detecting the movements of the vehicle, execution units of data processing applications, processor, memory, storage, and other data processing units, of a battery or other power supply element, of a radio or other communication unit, and in that by algorithmically analyzing the information coming from the sensors it detects whether the vehicle has just performed a parallel parking maneuver, in a row, on a herringbone ... or an exit maneuver parking space, and accordingly locates a parking space on the road or other, each maneuver being identifiable by a series of events coming from its own sensors, which allows algorithms recognize said maneuver, and also determines the side of the lane where the location is, and the availability of the location, occupied or free, and sends the position, side of the lane and availability information to a central system via its communication unit. Method according to Claim 1), characterized in that a reference base of the parking spaces is created and updated automatically, dynamically and in real time, by algorithmic analysis of the information coming from the devices integrated or used in the vehicles. . Method according to Claim 1), characterized in that the users are guided towards the portions of the street according to the direction of traffic where the probability of finding a parking space is greater or less, the guidance being able to be integrated into navigation applications of type "Google Maps" or "Waze". Device according to Claim 2), characterized in that it is based on a mobile unit of the smartphone type.