FR2944932A1 - Geographical zone representing information broadcasting method for Internet network, involves receiving image by technology platform, and connecting terminal to web server of technology platform - Google Patents

Abstract

The method involves capturing an image by a panoramic thermal webcam (2). The image is received by a technology platform (1) by sending the image to an analyzing server (5), processing the image by a calculation unit of the server, and transmitting the processed image to a message sending server (12) and/or to a web server (4) of the technology platform. A terminal (3) e.g. mobile telephone, is connected to a web server of the technology platform. An independent claim is also included for a system for broadcasting information representing a geographical zone through a communication network.

Description

TECHNICAL FIELD OF THE INVENTION [0001] The invention relates to a method and system for disseminating information through a communication network. . The present invention relates to the field of dissemination of essential information related to a geographical area in a communication network such as the Internet.

STATE OF THE PRIOR ART [0003] The Internet provides access to a large number of information of all kinds and of all forms, some of which are related to a geographical area. Among the information related to a geographical site, some servers connected to the Internet constantly broadcast images in real time from webcams installed for example in public places to be used to promote a tourist site, give weather information or show the attendance of a site. [0004] A "webcam" is a device connected to the Internet able to regularly take pictures of a given site and transmit them to a broadcast web server. The video images are converted into a binary format and put into computer pages, readable by any user's Internet terminal, usually HTML pages. A user terminal, equipped with an Internet browser, can consult in real time the video images, fixed or animated, taken by the "webcam". For this, the terminal connects to the Internet, acquires the latest or updated images of the "webcam", on request addressed to the broadcast server, and displays them on its screen. In addition, a webcam produces a video whose purpose is not to achieve high quality, but to be transmitted live through a network, typically the Internet. It is generally accepted that the images captured by a webcam are primarily intended to be transmitted over a network. To avoid exceeding the bit rate of such a network, the image produced is of low quality, both in terms of definition (often less than the VGA standard, that is to say less than 640 × 480 points), refresh (number of frames per second). Thus, to ensure a suitable image quality, it is preferable to have a broadband connection, for example ADSL. However, when the light conditions and visibility of the geographical area are almost zero, or nonexistent, the information broadcast over the Internet from webcams of the prior art become unusable for a user. SUMMARY OF THE INVENTION [0009] The present invention aims to solve the problem related to the technical difficulties encountered in order to improve qualitatively the nature of the information broadcast from a mechanism for broadcasting information relating to a geographical area. The invention proposes to improve the compatibility and interoperability of systems and existing information dissemination process from a webcam capable of implementing a thermal radiation detection mechanism disseminating data processed by a unit digital data processing from panoramic thermal webcams. To do this, one aspect of the invention relates to a method of broadcasting information of a geographical area through a communication network comprising a step of displaying said information included in a Web server by a user from a terminal, said method comprising the following preliminary steps: capture of at least one image by a panoramic thermal webcam; receiving said at least one image by a technical platform, and connecting said terminal to the Web server of said technical platform. According to particular embodiments: the method comprises the following steps succeeding said receiving step: sending said at least one image to an analysis server; Processing said at least one image by the computing means of said analysis server, and transmitting said at least one processed image to the message sending server and / or the web server; the method comprises a step of sending said at least one image to the Web server following the reception step; the processing step comprises the following sub-steps: • determination of the different thermal signatures included in said at least one image; • identification of the different thermal signatures; Generation of an instantaneous value for each measurement relating to a type of thermal signature of said at least one image, and integration in said at least one image of identification elements capable of highlighting the scenic content of said so-called picture. the processing step comprises the following additional sub-steps: • calculation of average statistical values relating to the measurements relating to the different types of thermal signatures identified for the geographical area and on reference periods each time the sub-step of determination is carried out and • recording of these values in a reference database; an authorized user accesses the parameterization of the geographical zone and for each type of thermal signature, the parameterization of the set of values relating to the curves of maximum absolute threshold and minimum absolute threshold and the parameterization of the values of threshold of positive difference and negative difference threshold. the processing step comprises a substep of comparing each instantaneous value with its average statistical value, so as to determine an unusual level of activity of the geographical area relating to a type of thermal signature identified and to generate an alert when the instantaneous value is greater than its average statistical value increased by a so-called positive difference threshold value or when the instantaneous value is lower than its average statistical value minus a so-called negative difference threshold value the treatment step comprises a sub step of comparing each instantaneous value with a so-called absolute maximum threshold curve of the type of thermal signature identified, so as to determine an abnormally high level of activity of the geographical area relating to this type of signature and generate an alert message when an instantaneous value is greater than said value c corresponding to the maximum absolute threshold curve; the processing step comprises a substep of comparing each instantaneous value with a set of values relating to a curve called minimum absolute threshold specific to the type of thermal signature identified, so as to determine an abnormally low level of activity of the geographical area relating to this type of signature and to generate an alert when an instantaneous value is less than said corresponding value of the maximum absolute threshold curve the identification elements relate to a trimming of a thermal signature or a string of characters specifying the nature of the object to which a thermal signature relates; the alert message is transmitted with said at least one image to a user by e-mail, SMS message, WAP MMS or FTP; the panoramic thermal webcam is motorized so as to perform a pseudo-random scan to cover the panorama of said geographical area; the capture step comprises a sub-step of acquiring information relating to the instantaneous position of the optical axis of said panoramic vision thermal webcam; the step of generation by the analysis server of a panoramic thermal image in equirectangular format relative to said zone from the association of the images transmitted by the webcams of the same geographical zone or from the images of a unique webcam included in this area, and transmission of said panoramic thermal image equirectangular format to the web server, and access to the parameterization requires authentication of the user. The invention also relates to a system for broadcasting information of a geographical area through a communication network comprising a technical platform connected by a network to at least one webcam and to at least one terminal, in which the webcam is a panoramic thermal webcam. According to particular embodiments: the panoramic thermal webcam is motorized so as to perform orientations in site and in azimuth; the panoramic thermal webcam includes a photographic sensor of color images; the panoramic thermal webcam includes a web server; the technical platform comprises a web server, an analysis server, an authentication server and a server for sending messages; the webcam is fixed on objects included in public areas, and the terminal is selected from one of the following: mobile phone, computer, smartphone. BRIEF DESCRIPTION OF THE FIGURES [0015] Other features and advantages of the invention will appear on reading the description which follows, with reference to the appended figures, which illustrate: FIG. 1 represents an embodiment of the invention. invention; FIG. 2, a view of the panoramic thermal webcam according to the invention; FIG. 3 represents two 180 ° views of the panoramic thermal webcam showing the photographic sensor mounted at the rear of the thermal webcam; FIG. 4 represents the thermal vision of an individual by the thermal webcam and then, after rotation of the webcam in the vertical plane by 180 °, the vision of the same individual by the photographic sensor, and FIG. a graph describing the comparative sub-steps of the method according to the invention.

For the sake of clarity, identical or similar elements are marked with identical reference signs throughout the figures. DETAILED DESCRIPTION OF AN EMBODIMENT In an exemplary embodiment of the system according to the invention, FIG. 1 shows a system comprising: a technical platform 1, and At least one panoramic thermal webcam 2, and at least one terminal 3. The technical platform 1 comprises in particular a Web server 4, an analysis server 5, a message sending server 12 as well as an authentication server 7 and a database 6. This analysis server 5 makes it possible to perform a particular processing of the images received from at least one panoramic thermal webcam. Upon receipt of the data relating to the images transmitted by the one or more thermal webcams, these are processed by the analysis server 5, stored in the database 6 for the calculation of the statistical values, transmitted in case of alert to the server sending messages 12 and / or the web server to then be transmitted via a communication network such as Internet 13 to a user with the terminal 3. In another embodiment the images are directly archived on the web server to be then viewed directly by the user or to be processed at the request of this user. The analysis server 5 is intended to: • collect via the Internet thermal image streams of one or more panoramic thermal webcams; • recognize one or more types of thermal signatures (for example, a standing adult, a lying adult, a motorcycle, a truck, a garbage truck ...); • delimit one or more geographical areas visualized by the panoramic thermal webcams; • measure, as a function of time, the level of thermal activity by type of thermal signature, by geographical area and by thermal webcam • calculate and record statistical data on these measurements; • automatically detect an abnormal or unusual level of activity, and • inform directly or after verification by a service provider, the persons, services or authorities concerned. Advantageously, the analysis server 5 performing the thermal image processing has a VPN type access (acronym for (Virtual Private Network) meaning either directly on each panoramic thermal webcam 2 via a server. Web 8 integrated to this webcam 2, or indirectly via the web server 4 of the platform, in order to benefit from additional information such as, for example, for thermal panoramic webcams, the position of the optical axis of each panoramic thermal webcam. 0022] This information will allow the analysis server 5 to adapt its context of analysis of thermal signatures according to the areas viewed: for example, when the optical axis of a thermal webcam meets the ground a few meters of the thermal webcam, the thermal signature of a person in the field of vision of the thermal webcam is characterized by many more pixels in the image than when the optical axis of the thermal webcam meets the ground more than 100 m from the thermal webcam. In FIG. 5, abnormal or unusual activity levels are determined from a number of rules taking into account for each thermal webcam, for each geographical zone and for each type of thermal signature, the parameters following: • time (day and time); • the instantaneous measurement, as a function of time, of the level of thermal activity for the given type of thermal signature and in the given zone (for example, the number of thermal signatures of persons present in the zone); • the average statistical curve, as a function of time, of the previous measurement over a reference period; • the absolute maximum threshold curve that must not be crossed by the instantaneous measurement according to the day and time; • the absolute minimum threshold curve that must not be crossed by the instantaneous measurement as a function of day and time; • the positive difference threshold that must not be exceeded, between the instantaneous measurement and the average statistical value of this measurement; • the negative difference threshold that must not be exceeded, between the instantaneous measurement and the average statistical value of this measurement; • a list of people or services to be informed, and • a list of information resources (email, SMS, FTP transfer of an image ...). The calculation and the recording of average statistical values over reference periods from the measurements made, then the comparison of the instantaneous measurements with the statistical values will make it possible to detect the occurrence of situations that can not be predicted by the single crossing an absolute threshold by a thermal measurement. [0025] Thus, a level of activity will be qualified as abnormal when the instantaneous measurement will cross the absolute threshold curve; a level of activity will be described as unusual when the gap between the instantaneous measure and a threshold value exceeds. Once this treatment has been carried out, one or more characteristic thermal images of the information are transmitted to the server sending messages 12 in view of their transmission to a user having the terminal 3. [0027] These thermal images characteristic of the The information transmitted includes information or indications inserted into the images of a nature to assist the user by highlighting the essential characteristics of the information. For example: • if the information concerns an alert concerning the presence of several individuals in a specific location, analysis server 5 may generate a thermal image of the scene with individuals cut off in the image; • If the information concerns an alert concerning the presence of an individual in a private sector accessible from the public highway, analysis server 5 can generate a thermal image of the premises with the individual cut off in the image; If the information concerns an abnormal thermal activity that can characterize a fire, analysis server 5 can generate a thermal image of the places with the suspect zone framed in the image. In another embodiment, the parameterization in the analysis server 5 of the geographical zones, and for each geographical zone and each type of thermal signature, the parameterization of the maximum and minimum absolute threshold curves, the setting of the values positive threshold and negative gap threshold, may be restricted to privileged users such as a surveillance company or companies included in the geographical area where the webcams are located thermal. This type of users can also set their e-mail settings to be notified immediately when the analysis server detects a case that could constitute an alert. This type of user can also set up instructions adapted to each situation for the purpose of a delegation operation by another privileged user. The information delivered by the analysis server 5 may also be transmitted for verification to a particular privileged user type of service provider from the server 12. This service provider may, after verification of the information and taken into account. account of the instructions adapted to the situation, implement appropriate measures, such as, for example • call of a responsible person concerned; • dispatch of a speaker (private places open to the public), and • by agreement, call from the police.

In addition, when the panoramic thermal webcam comprises a photographic sensor of high resolution color images, the analysis server 5 can command the panoramic thermal webcam to acquire one or more color photographs in order to retrieve and transmit them to the service provider in conjunction with the thermal image or the thermal images characteristic of the information transmitted, in order to assist the service provider in his information verification mission. In this embodiment, such users will have to register with the technical platform to have access to the settings. The registration step can be carried out by completing a form in paper or digital format available for the latter in a page generated by the Web server 4. The elements relating to this user will be archived in the database 6, which also includes the data necessary for the authentication of this user with the server 7. During authentication, this server 7 cooperates with the database 6 from exchanges 18 of data.

Thus, for example, the technical platform can from the server for sending messages 12 inform a user of the presence of one or more individuals in a private area accessible from the public highway. Moreover, thanks to the information broadcast by the technical platform from the Web server 4, analysis server 5 and at least one panoramic thermal webcam, firefighters can be informed of a fire start, the police forces of a group of individuals in a place, an emergency service the presence of a person lying on the roadway (accident), a social service of the presence of a person lying in a shelter bus (SDF), the garbage collection service of non passage of the truck on a street. It should be noted that the installation of webcams filming public places and broadcasting their images on the Internet is free, as long as they respect the private life and the right to the image of the people filmed. The fields of view of the webcams must be calculated so that it is not possible to identify the persons and vehicles filmed and, in the case of use of traditional webcams, the zones filmed must be restricted to the sectors where the confidentiality of the persons and filmed vehicles is preserved. The terminal 3 according to the invention may be fixed or mobile such as a computer or laptop, a mobile phone, a PDA, or a smartphone. This terminal 3 relates to all equipment comprising: - at least one microprocessor, - volatile and / or non-volatile memory and / or mass, input means, such as a keyboard and / or a mouse and / or touch screen or voice control means, - display means, and communication means 9. The communication means 9 of the terminal 3 relate for example to the following technologies and / or standards: - Bluetooth and / or IrDA (Infrared Data Association), and / or WI-FI (abbreviation of wireless fidelity) and / or Wimax, and GPRS (General Packet Radio Service), GSM, UMTS, HSDPA or IMS (IP Multimedia Subsystem). This terminal 3 comprises communication means 9 which are compatible with those of the technical platform 1. [0036] This platform 1 is also able to exchange 14,15, 16,17 data with the webcam 2 and the terminal 3. For this platform 1 includes conversion modules so as to make compatible the protocols and languages used with those of the webcam 2 and the terminal 3. [0037] The link means of this platform relate to a network corresponding to an Internet network but not exclusively. The data exchanges are carried out under TCP / IP protocol or other protocols allowing optimized and reliable exchanges of data. The network used relates to wiring means and / or electromagnetic transmission means.

Without claiming to make an exhaustive list, these wiring means correspond for example to optical fiber or copper cables, and the electromagnetic transmission means relate for example to radio links based on mobile standards as the GSM (acronym for Global System for Mobile Communications), UMTS (acronym for Universal Mobile Telecommunications System), EDGE (acronym for Enhanced Data Rates for GSM Evolution) or HSDPA (acronym for High-Speed Downlink Packet Access). These means can also relate to technologies such as WIFI defined by the IEEE 802.11 standards, or Bluetooth defined by the IEEE 802.15 standards, or the WIMAX (acronym for Worldwide Interoperability for Microwave Access) defined by the standard. IEEE 802.16. The technical platform includes a web server 4 capable of generating Web pages and / or Wap to allow the user to register for the service offered by this platform 1 from its terminal 3. [0041] This platform also includes a server 12 for the management of electronic mail and the sending of SMS type message (acronym for Short Message Service, which corresponds to short text messages), or MMS (acronym for Multimedia Messaging Service or FTP (acronym File Transfer Protocol), which is a multimedia messaging service) or WAP (acronym for Wireless Application Protocol which corresponds to a communication protocol).

In Figure 2, the webcam 2, as defined above is a webcam connected to the Internet, which regularly takes pictures of a given site and transmits them to a Web server 4 broadcast. This Webcam comprises a photosensitive electronic component type CCD (acronym for Charge-Coupled Device, meaning charge transfer device) or CMOS (acronym for Complementary Meta! Oxide Semiconductor, meaning semiconductor complementary metal oxide), for converting electromagnetic radiation - for example Ultra Violet, Visible or Infra Red - into an analog electrical signal. This signal is then amplified, then digitized by an analog-digital converter and finally processed to obtain a digital image. It is equipped with a lens adapted to the expected field of view of the geographical area. It uses infrared diodes that allow some visibility in complete darkness. The image is then in black and white. The advantage of infrared diodes is that the light produced is invisible to the human eye.

It does not dazzle the user.

The thermal webcam comprises an uncooled microbolometer type electronic component, sensitive to thermal radiation in the spectral range of 8 pm to 14 pm. The thermal webcam is equipped with an objective adapted to the expected field of view of the geographical area whose glass is treated with germanium to let through the thermal radiation.

[0048] This thermal webcam provides a panoramic view of the geographical area where it is located. From the technical platform, the data coming from the geographical area can be broadcast on the Internet at the terminal by proposing a thermal vision of this zone with the automatic measurement of the activity levels by thermal signatures and the generation of message from alert if necessary. In particular, thermal imaging has the advantage, compared to visible imaging, of perfectly accounting for human activity and traffic in a public place, without presenting an intrusive character in the private life of users of the device. site. Moreover, by using a panoramic thermal webcam - with panoramic vision or panoramic scanning - it is not necessary to restrict the panoramic field of vision of the thermal webcam for fear of the identification of a person or person. Indeed, thermal imaging does not identify a person or a vehicle even when they are very close to the thermal webcam. It does not allow to see through the windows and windows. Thus, in contrast to a traditional webcam, a panoramic thermal webcam or panoramic scanning can be installed in the very heart of a public place, a few meters from people, vehicles, areas of interest or potential danger. In addition, thermal imaging is independent of the quality and density of public lighting, a thermal webcam remains effective at night to account for human activity and vehicle traffic in areas of little or not lit. Finally, the infrared radiation being better transmitted than the visible radiation in rainy weather and fog, a panoramic thermal webcam will continue to give thermal images accounting, for example, the presence of people and vehicles in a place. public, while a visible webcam would no longer be exploitable. In addition, the webcam according to the invention comprises an interpolation software system, intended to display a detailed image from a low quality image by creating intermediate pixels whose color is calculated by comparison. with adjacent pixels. Some webcams use infrared diodes that allow some visibility in complete darkness.

It also includes connection means defined in the non-exhaustive list below: - USB or FireWire port; - parallel or serial interface; - Interface compatible with Ethernet, and wireless type, Wifi, Wimax, Bluetooth, etc., and - Interface compatible with an internal or external video capture card PAL, Secam, etc. This thermal webcam has the advantage of capturing a panoramic image of the area where it is located. There are several possible modes of implementation of a thermal webcam to form a panoramic thermal webcam or panoramic scanning. Indeed, in one embodiment such a panoramic vision characteristic is obtained by the mechanical assembly of several thermal webcams so that their fields of view complement each other without overlap. The whole makes it possible to present on a single Internet page the thermal images juxtaposed of all the webcams in order to constitute a panoramic vision of the places. For example, the assembly of three nineteen-millimeter thermal webcams gives a panoramic field of vision of one hundred and eight degrees. The panoramic thermal webcam thus constituted is described as thermal webcam with panoramic vision. This technique is certainly interesting, but the thermal vision of a public place on, for example, three hundred and sixty degrees in horizontal and one hundred and thirty five degrees in vertical, is possible only by associating a large number of thermal webcams - precisely Fifty thermal webcams with focal lengths of nine millimeters and thus multiplying costs and video streams. Because of the high costs, this mode can hardly be implemented. In addition, because of the multiplication of the image flows, it necessarily requires a direct connection to broadband Internet access, which deprives this mode of the possibility of using the upstream path of a wireless network, for example the 3G network, to connect the panoramic vision thermal webcam thus constituted to a web server via a specific modem. [0063] In one embodiment, the panoramic thermal webcam comprises a motorized device allowing its orientation in elevation and azimuth on for example 360 ° in horizontal and 135 ° in vertical. In this mode, it is possible to program a partial scan of the places along a pseudo-random route, that is to say the average frequency of passage to a given point is known but not the sequence of points in the course , and to broadcast live thermal images on the Internet. The thermal webcam thus constituted is qualified as a panoramic thermal webcam. It has the advantage of being of low cost and allows the use of the upstream path of a wireless network, for example the 3G network, to connect the thermal webcam to the web server. In this mode of operation, Internet users can control the webcam thanks to its motorized mechanism. In another embodiment this control can be limited because the consultation of the thermal images of a particular place can disturb the current scanning and thermal measurement process. The panoramic thermal webcam makes it possible to perform the acquisition at a regular frequency, for example every 15 minutes or hourly, of a panoramic thermal image in equirectangular format. This operation is performed by suspending the sweep possibly in progress and by driving the motorized device so that the thermal webcam performs a systematic recording of the surrounding thermal landscape. For example, a series of rotations of the webcam on the horizontal plane may be carried out, each new rotation being shifted from the previous one in the vertical plane by an angle corresponding to the vertical angular aperture of the field of view of the camera. thermal webcam. All rotations will allow recovery of the viewing sphere 19 of the thermal webcam on, for example, 360 ° horizontal and 135 ° vertical. At the end of the acquisition phase of a panoramic image, scanning, possibly in progress, resumes. A software module included in the analysis server 5 makes it possible to calculate a panoramic thermal image in equirectangular format that will be used for updating an Internet page of the WEB server. A standard reader QuickTimeTM QTVR plug-in will be made available on the same web page, allowing visitors a virtual tour of the premises by virtual control of the panoramic thermal webcam thus formed. The advantage of this variant is that users can virtually control the motorized device to view the thermal image of a particular location without interfering with the thermal measurement and analysis processes in progress. For example, a local resident may consult the thermal leaks of his apartment and compare them with those of his neighbors, even if the thermal vision of his apartment is not planned in the partial scanning of the premises. The panoramic thermal webcam will integrate an IP video encoder (Internet protocol) which will perform the encoding of the video output of the PAL thermal webcam in a compressed video stream, for example in MPEG4 compression or H264 compression, which encoder IP video that can integrate the WEB server functionality for a limited number of simultaneous connections, for example 20 connections maximum.

Advantageously, the IP video encoder may also have a function for controlling the orientation in the site and azimuth of the thermal webcam. The web server will also be able to collect the flow of thermal images of one or more panoramic thermal webcams and broadcast the images on the Internet for a large number of simultaneous connections. The thermal webcam may include a specific modem for connecting it wirelessly, for example the 3G network, to the Web server 4 which will broadcast the thermal images on the Internet. Advantageously, in FIGS. 3 and 4, in another embodiment, the panoramic thermal webcam can integrate a photographic sensor of high resolution color images, for example 5 Megapixels, having a network interface, with a fixed-focus lens. giving it a field of vision substantially identical to that of the thermal webcam. This sensor may be mounted at the rear of the thermal webcam, in the opposite symmetrical position, so that the optical axes of the thermal webcam and the photographic sensor are combined and that to extract a photograph in the visible range of the field of vision of the thermal webcam, it suffices to operate a rotation of the common optical axis of one hundred and eighty degrees in the vertical plane. The photographic sensor of high resolution color images makes it possible in particular: to produce a panoramic color image of the places in the visible range, according to a procedure identical to that described for the production of a panoramic thermal image, with a sufficiently high resolution low that it is impossible to identify the persons and vehicles likely to be present at any point in the panoramic color image; • automatically acquire one or more color photographic images of a scene of interest during the viewing by the thermal webcam, by following the following steps: - suspension of the scanning possibly in progress; controlling the motorized device in order to achieve a rapid movement, for example in less than one second, of the common optical axis of the thermal webcam and the photographic sensor consisting of a 180 ° rotation in the vertical plane; - recording one or more color photographs in an internal memory; - fast reverse rotation of the optical axis; - Resume scanning possibly in progress, and - limited availability of the color photographic or recorded via its network interface. The Web server 4 generates HTML pages comprising all or part of the following information: • the real-time thermal vision of a public place resulting from a panoramic vision thermal webcam; • the real-time thermal vision of a public place resulting from a panoramic thermal webcam; • the panoramic thermal image regularly updated by a panoramic thermal webcam, and • the panoramic color image regularly updated by a panoramic thermal webcam with the option of photographic sensor of high resolution color images. According to the invention, the analysis server 5 must be connected to the Internet by at least one Internet modem / router and may include the following software modules: at least one thermal image acquisition module by connection to one or more panoramic thermal webcams 2 or to a WEB server 4; At least one software module for controlling the orientation in site and azimuth of one or more panoramic thermal webcams - with panoramic scanning - possibly according to a pseudo-random path; At least one software module for measuring and analyzing thermal signatures; • at least one software module for informing and alerting the persons and services concerned; Possibly a software module for acquiring and calculating thermal and / or visible panoramic images of said location, and possibly a software module for acquiring color photographs of said location. In addition, unlike the panoramic thermal webcam as described in the invention, the so-called conventional webcam, that is to say operating in visible light is inappropriate for the following reasons: • in visible imaging, segmentation (video analysis operation of cutting a homogeneous shape in the image) and the recognition of human signatures or vehicles is complex because of the shadows worn by natural lighting or street lighting, and at night, because light projections related to car headlights; • the analysis of webcam images at night is dependent on street lighting: human activity in poorly lit or unlit areas is difficult to measure; • the view of webcams in fog or rain is severely limited; • For panoramic or panoramic scanning webcams, areas too close to the webcam can not be viewed when there is a risk of possible identification of people or vehicles, and • for the same reasons, so-called conventional webcams. can not be installed at the heart of the monitored sites and are generally too far from the viewing locations for reliable automatic image analysis. The invention offers the advantage through the dissemination of information on the Internet to describe the thermal activity in public places such as, for example, human activity and vehicle traffic, from: 10 • installation of thermal webcams with panoramic vision and / or panoramic scanning in the heart of public places, on buildings, masts or candelabra of the public or private domain; • setting the thermal webcams to film the zones in a fixed position or by scanning these zones; • diffusion of thermal images on the Internet; • measurement from thermal imaging equipment connected to the Internet activity levels by type of thermal signature on different geographical areas visualized by the thermal webcams; • calculation and recording of statistical data on the measurements made; • automatically detect from this equipment an abnormal or unusual level of activity, and • information directly, or after verification by a service provider, persons, departments or authorities concerned with a particular type of information. The invention offers the advantage of broadcasting information continuously through a communication network such as the Internet (but not exclusively), the level of thermal activity in public places, including human activity and the circulation of vehicles, without intruding into the privacy of the users of the premises and while allowing different categories of stakeholders to have measurements, statistical information and alerts related to the measurable thermal activity. This information on the thermal activity of public places, for example correspond to: • thermal leakage at the level of buildings located in the thermal vision perimeter of the panoramic thermal webcams: this type of information may concern residents and traders residents, and • the level of human activity and traffic. The method according to the invention comprises a step of displaying the images directly transmitted by the panoramic thermal webcams to a web server by a user from a terminal, said method comprising the following preliminary steps: capture of at least one image by a panoramic thermal webcam; receiving said at least one image by a technical platform, - sending said at least one image to an analysis server; processing said at least one image by the calculation means of said analysis server, determining the different thermal signatures included in said at least one image; • identification of the different thermal signatures; Generating an instantaneous value for each measurement relating to a type of thermal signature of said at least one image, and comparing said instantaneous value with curves of maximum and minimum absolute threshold values and comparison of the difference between said instantaneous value and its average statistical value with positive and negative difference threshold values, so as to determine an abnormal or unusual activity level of the geographical area and to generate an alert; Integrating into said at least one image of identifications elements capable of highlighting the scenic content of said image at the origin of an alert; transmitting said at least one processed image to the message sending server; connecting said terminal to the message sending server of said technical platform and receiving a message comprising said alert with said information. The processing step includes a sub-step of: - calculating (or recalculating by integrating the new instantaneous value for a given period and geographical area) and, average statistical values relating to the thermal signatures identified for the geographical area and over periods reference every time the sub step of determination is performed, - recording of said values in a reference database. Thus, it is understood that the invention is not limited to the embodiments described and illustrated. It is furthermore not limited to these exemplary embodiments and the variants described.

Claims (2)

REVENDICATIONS1. Method for broadcasting information of a geographical area through a communication network (13) comprising a step of displaying said information included in a Web server (4) by a user from a terminal (3) characterized in that said method comprises the following preliminary steps: - capture of at least one image by a panoramic thermal webcam (2); receiving said at least one image by a technical platform (1), and connecting said terminal (3) to the Web server (4) of said technical platform (1). 2. Method according to the preceding claim, comprising the following steps following said reception step: - sending said at least one image to an analysis server; processing said at least one image by the computing means of said analysis server, and transmitting said at least one processed image to the message sending server (12) and / or to the web server (4). 6. The method of claim 1, comprising a step of sending said at least one image to the web server following the reception step. 7. The method of claim 2, wherein said processing step comprises the following sub-steps: determining the different thermal signatures included in said at least one image; identification of the different thermal signatures, generation of an instantaneous value from the measurement relating to each type of thermal signatures of said at least one image, and integration in said at least one image of identification elements capable of implementing evidence the scenic content of this image. 5. Method according to the preceding claim, wherein said processing step comprises the following additional sub-steps: calculation of average statistical values relating to the thermal signatures identified for the geographical area and on reference periods each time the substep of determination is made, and - recording of said values in a reference database. 6. Method according to the preceding claim wherein an authorized user accesses the setting of the geographical area and for each type of thermal signature, the setting of the set of values relating to the curves of maximum absolute threshold and minimum absolute threshold and the parameterization threshold values of positive deviation and negative deviation threshold. 7. Method according to the preceding claim, wherein said processing step comprises a substep of comparing each instantaneous value with its average statistical value, so as to determine an unusual level of activity of the geographical area relating to a type of thermal signature identified and to generate an alert when the instantaneous value is greater than its average statistical value increased by a so-called positive difference threshold value or when the instantaneous value is lower than its average statistical value less a so-called threshold value, negative difference .8. A method according to claim 6, wherein said processing step comprises a substep of comparing each instantaneous value with a set of values relating to a curve a so-called minimum absolute threshold curve specific to the type of thermal signature identified, so determining an abnormally low level of activity of the geographical area relating to this type of signature and generating an alert message when an instantaneous value is lower than said corresponding value of the maximum absolute threshold curve. 9. Method according to the preceding claim, wherein the identification elements relate to a trimming of a thermal signature or to a character string specifying the nature of the object to which a thermal signature relates. 10. Method according to the preceding claim, wherein said alert message is transmitted with said at least one image to a user by e-mail or SMS message, MMS WAP or FTP. 11. Method according to any one of the preceding claims, wherein said panoramic thermal webcam is motorized so as to perform a pseudo-random scan to cover the panorama of said geographical area. The method according to the preceding claim wherein said step of capturing comprises a sub-step of acquiring information relating to the instantaneous position of the optical axis of said panoramic vision thermal webcam. 13. Method according to the preceding claim, comprising a step of generation by the analysis server of a panoramic thermal image in equirectangular format relative to said area from the juxtaposition of the images transmitted by the webcams of the same geographical area. or from the images of a single webcam included in this area, and transmission of said panoramic thermal image equirectangular format to the web server. 14. Method according to one of the preceding claims, which access to the parameterization requires authentication of the user. 15. System for broadcasting information of a geographical area through a communication network comprising a technical platform (1) connected by a network to at least one webcam and at least one terminal, characterized in that said webcam is a panoramic thermal webcam (2). 16. System according to the preceding claim, wherein the panoramic thermal webcam (2) is motorized so as to perform orientations in elevation and azimuth. 17. System according to one of claims 15 or 16, wherein said webcam (2) comprises a photographic sensor of color images. 18. System according to one of claims 15 to 17, wherein said webcam comprises a web server. The system of claim 15, wherein said webcam has wireless network access. 20. System according to one of claims 15 to 19, wherein said technical platform (1) comprises a Web server (4), an analysis server (5), an authentication server and a server d. 21. A system according to one of claims 15 to 20, wherein said webcam (2) is attached to objects included in public spaces. 22. System according to one of claims 15 to 21, wherein the terminal (3) is selected from one of the following: mobile phone, computer, Smartphone.