FR3001319A1 - Mapping device for mapping occupation of park of seats in e.g. cinema, has software applications to present information, where each seat is equipped with accelerometer, wireless transmitter, microcontroller, and power source - Google Patents

Abstract

The device has a network of wireless sensors and software applications to present information gathered in a park of seats, where each seat is equipped with an embedded module including an accelerometer, a wireless transmitter, a microcontroller, and a power source. Each module is wirelessly connected to a server through a TCP/IP concentrator gateway, so as to transmit information about an occupied state or a free state of the seat to the server. The server includes software to map the occupation of the seats, and output the mapping in a website, a smartphone application, or a wall display.

Description

The present invention relates to a device for mapping the occupation of a park of seats, in order to facilitate its management, in particular in shared offices. Fleet management is traditionally done using a turnstile at the entrance to the venue, using motion sensors and / or regular rounds conducted by the staff in charge of the venue. These solutions are imprecise. None allows to know at any time how many places are free and where these places are. Neither does it allow to maintain the history of the occupation of the place for the purposes of studies, with a view to refitting. None plans to publish on the Internet the mapping of the occupation of the place, updated in real time. The state of the art currently does not offer a technological solution for mapping the occupancy of a seat park. This is explained in two ways: on the one hand, it is difficult to design a network of embedded sensors that consume enough energy so that their lifetime approaches or equal to that of a seat. On the other hand, in many workspaces, seats are frequently moved from one place to another. It is then impossible to indicate on a map of the building which places are free and which places are occupied. The device according to the invention makes it possible to remedy these shortcomings. The device is a wireless sensor network connected to a software portion for processing the information. The device can be broken down into three layers: electronic, radio and software. At the level of the electronic layer, the device provides for the installation of a sensor embedded on each seat. This sensor includes an accelerometer that detects the presence of a user on the seat, a microcontroller-RF transmitter coupled to an antenna and one or more batteries. When the sensor detects movements on the seat, it infers the presence of a user on the seat. The sensor then sends a radio signal to a hub that relays the information on the Internet to a server. The server hosts a database that stores the information, i.e. the "free" or "busy" status of each seat. A web interface provides access to this information in the form of a mapping of the occupation of the place. This cartography represents the interior of the place in a schematic way and proposes a symbol (round, square or other) to designate places. When a user sits, the symbol of the corresponding place changes color or shape. The map is then accessible from a multitude of different media: connected wall screen, smartphone, computer, tablet. The user can thus know from a distance if places are free and where they are. It can also book remotely and for a limited time one or more places. This booking option will follow different rules according to the policy of each establishment. To overcome the problem of seats moved from one place to another, the device provides for the use of two technologies: triangulation and / or radio pairing. These two systems make it possible to geo-locate the seats inside the building. Triangulation consists of placing at least three RF emitting sources (wifi or other) in each room and measuring the response times when a sending source interrogates a sensor. The pairing consists of placing on each table a low power RF emitting source emitting so that the emitted signal can be perceived only by a sensor in the immediate vicinity of the emitting source. The sensors on the tables serve as spatial markers while the sensors under the seats serve as presence detectors. To overcome the problem of energy autonomy of embedded sensors, the device provides a very low power consumption detection algorithm. Initially, the seat sleeps deeply. If someone moves the seat, the movement triggers the inertial wakeup of the accelerometer which checks that other movements are detected for the next 10 seconds. If this is the case, the sensor considers the seat as busy and goes back to sleep for 55 seconds. He then wakes up only every 55 seconds for a period of 5 seconds, to check if there is still activity on the seat. If during 15 cycles of one minute, the sensor detects no activity, it considers that the seat is free. At the level of the radio layer, the device provides the deployment of a telecommunications architecture very low consumption according to a star topology. Clusters of about twenty sensors communicate with a concentrator. This concentrator collects information from the sensor network and sends this information to the database by formulating SQL queries. This hub can be connected to the Internet via Ethernet cable, wifi, GPRS or other protocols. At the software layer level, the device provides for the creation of a building interior map editor, the creation of websites and the creation of dedicated smartphone applications. The sensor, encapsulated in a plastic case, can be either implanted inside the seat at the time of its manufacture, or fixed below after its manufacture, by gluing or with a fixing flange. The device according to the invention is intended for the management of the seat parks in shared offices, conference rooms, restaurants, cafes, cinemas, libraries and other shared work or leisure spaces.

Claims (3)

CLAIMS1) Device for mapping the occupation of a park of seats characterized in that it comprises, for each seat: an accelerometer, a wireless microcontroller-transmitter, possibly another source emitting for geocollecting the sensors (by triangulation or pairing), a hub, a server and software outputs in the form of web sites, smartphone applications or connected wall screens. 2) Device according to claim 1 characterized in that each sensor indicates to the server, through a hub, the status "busy" or "free" of the corresponding seat, and its location in the building. 3) Device according to claim 1 characterized in that the server produces and updates a map of the park of seats that makes available to users on a website, a smartphone application or a wall screen.