WO2016156748A2

WO2016156748A2 - Dynamic ambience management system for use in stations and other public spaces

Info

Publication number: WO2016156748A2
Application number: PCT/FR2016/050735
Authority: WO
Inventors: Cédric Gallais; Pierre-Arnaud DONNET
Original assignee: Systra
Priority date: 2015-03-31
Filing date: 2016-03-31
Publication date: 2016-10-06
Also published as: KR20180005165A; CN107535034A; GB2553048A; AU2016239825A1; FR3034390B1; BR112017020579A2; WO2016156748A3; CO2017010816A2; FR3034390A1; GB201715199D0; MX2017012561A; SG11201707466RA; GB2553048B

Abstract

The invention relates to a dynamic ambience management system for use, in particular, in railway stations or underground stations, comprising: a plurality of environment sensors (11, 12, 13, 14) configured to provide information representative of the environment in the station, known as environment information; a plurality of ambience devices (31, 32, 33, 34, 35) intended to be arranged in the station and/or in the immediate vicinity; and a processing unit (20) for processing the environment information, configured to receive and analyse the environment information and to determine and supply parameterisation signals to the ambience devices (31, 32, 33, 34, 35) according to the environment information, such that the ambience in the station can be adapted to the environment.

Description

DYNAMIC ATMOSPHERIC MANAGEMENT SYSTEM IN A STATION OR ANY OTHER PUBLIC AREA

1. Technical field of the invention

The technical field of the invention is that of the management of the ambiances in a station, for example railway or underground, or any other public space.

2. Technological background

A railway or underground station or a public space in general is a place of life whose environment and atmosphere vary greatly according to the time of day, the time of year, the influx of passengers, external and / or indoor climatic conditions, etc. In the rest of the text, the example of underground and railway stations was considered to provide concrete examples of the invention.

The inventors have shown that the technical means that equip a railway or underground station for the comfort and / or safety of the users of the station, such as the sound system of the station, the means of lighting, the means of heating, ventilation means, display means, etc. have frozen operations, which do not take into account the changing environment and atmosphere of the station.

This inadequacy between the environment of the station and the operation of the technical means may generate for certain users and in certain situations, a feeling of insecurity and / or an unpleasant experience that may deter these users from using the means in the future. from this station.

The inventors have therefore sought to develop a system for dynamic management of ambiances in a railway station or underground.

3. Objectives of the invention

The invention aims to provide a dynamic management system ambiances in a station or any other public space.

The invention also aims to provide, in at least one embodiment of the invention, such a system that allows to confer to the users of the station and the public spaces in general, a feeling of security, comfort and flows of people facilitated ensuring a pleasant and positive experience of their passage in the station or public space.

The invention also aims to provide, in at least one embodiment of the invention, such a system that is modular and scalable as needed.

The invention also aims to provide, in at least one embodiment of the invention, such a system that can equip all kinds of station and public space in general, regardless of their architecture.

4. Presentation of the invention

To do this, the invention, applied for example to a railway station or underground is a dynamic management system environments including:

a plurality of sensors, called environmental sensors, configured to provide information representative of an environment of said public space, said environment information, said environment sensors being intended to be arranged in said public space and / or in his immediate neighborhood,

a plurality of parametric physical signal transmission devices forming stimuli perceptible by at least one sensory receiver of the users of said public space, said room devices, said room devices being intended to be arranged in said public space and / or in his immediate neighborhood,

a unit for processing said environment information configured to receive and analyze said environment information and to determine and supply parameterizing signals to said environment devices which are functions of said environment information, so as to be able to confer on said space public an atmosphere adjusted to this environment of said public space.

A system according to the invention therefore makes it possible to adapt the operating parameters of the ambient devices according to the information representative of the environment of said public space. The environment of said public space is characterized for example by its acoustics, its lighting, its ventilation / heating mode, its architecture, its organization, its layout, its affluence, its signage, by the proposed services, and generally by all the components of said public space capable of providing at least one stimulus perceptible by at least one sensory receiver of a user of said public space. The invention is a system capable of modifying the perception of said public space by the users by adapting the stimuli to the real environment of said public space. Surrounders are physical signal emitting devices configured to activate at least one user's sense of said public space. The invention makes it possible to recover information representative of this environment and to control stimuli creation devices (which are the ambience devices) so that the environment thus generated is well adapted to the real environment of said public space. . In other words, the system according to the invention allows dynamic management of the ambiances by retrieving information on the actual present environment (inside and / or outside the vicinity of said public space) and by controlling devices configured to to stimulate passengers' senses so as to provide a suitable environment in real time for the well-being of users. The invention makes it possible to control the environment interpreted by the users. This interpreted environment forms the environment of said public space which is determined from information representative of the actual environment and the processing unit that is configured to provide control signals of the environment devices. This determination of the control signals by the processing unit is based on predetermined algorithms which are for example the result of tests carried out prior to the commissioning of said public space, or which are developed as and when the acquisition knowledge of the principles for characterizing the comfort of a user of said public space. In particular, the processing unit can be configured to characterize an expertise and knowledge of the principles that define the notion of comfort of a user of said public space. An atmosphere (or atmosphere or an environment) is a global, perceptive, multi-sensory and emotional impression of a space or situation. The invention makes it possible to act on this multi-sensory and emotional perception of said public space.

The invention can thus allow the public space to adapt its lighting and its sound in real time, in order to improve the comfort and flow of people. Other modalities such as ventilation and / or signage can complete the control of the atmosphere to reinforce well-being and circulation.

The room devices can be of all types. For example, it may be acoustic devices, light devices, air flow devices, identification devices, and generally any device that can generate a mood factor.

The sensors can transmit their measurements to the treatment unit via a wired network, a wireless network (Wifi, bluetooth, etc.) or by a combination of wired and wireless networks. Similarly, the processing unit can transmit its commands to the room devices via a wired network, a wireless network or a combination of both. These networks are not necessarily the same as those used for the transmission of data between the sensors and the processing unit. The wired networks can indifferently be electrical networks, optical networks, magnetic networks and generally any type of network for transmitting data.

Advantageously and according to the invention:

at least one environmental sensor is a density sensor intended to be arranged in a predetermined zone of said public space and configured to provide, as environmental information, the density of users in said predetermined zone,

at least one ambient device is an external lighting device intended to be arranged outside said public space and configured to be able to emit on command a color light chosen from a plurality of predetermined colors,

said processing unit is configured to provide at least one lighting device a control signal, a function of said user density, which determines the color of the light of this lighting device.

According to this variant, at least one predetermined zone of said public space is equipped with at least one density sensor configured to provide information representative of the density of users in this zone.

According to this variant, the public space further comprises at least one lighting device arranged outside said public space, for example on the forecourt of said published space. Such a device is for example a luminous arch. This device is controlled by the processing unit to change colors according to the density of users in the area considered. For example, such a luminous arch can light up in green if the density is low, in orange if it is medium and in red if it is strong. A system according to this variant therefore makes it possible to provide users who are preparing to enter the public space with information, in the form of a universal color code, representative of the density of users in said public space. This allows for example to prepare a user preparing to enter the public space at the influx it will meet. This allows him to adapt his career. It may also, depending on perceived affluence, prefer to use the stairs rather than escalators for example.

Throughout the text, defined by "predetermined area of said public space", any space of said public space likely to accommodate users. It can for example be the ticket sales room, train access platforms, a waiting room, the mezzanine or exchange room, etc.

Throughout the text, the term "density sensor", a sensor configured to provide information representative of the density of users in a predetermined area. Such a density sensor is for example formed of a video surveillance camera associated with an image processing software configured to detect the number of users in the images acquired by the camera. It may also be piezoelectric sensors arranged on the ground of the zone in question. It can also be software resources configured for generating ping requests to users' mobile phones and evaluating a density from the received signals. Other means can be implemented to provide information representative of the density of users in a predetermined space.

Advantageously and according to the invention:

at least one environmental sensor is a sensor for detecting the arrivals and departures of the trains of said public space,

at least one ambient device is a fountain with illuminated water jets intended to be arranged outside said public space, and configured to be able to emit on command illuminated water jets of at least one color chosen from a plurality of predetermined colors and a height selected from a plurality of predetermined heights,

said processing unit is configured to supply to at least one illuminated water fountain a control signal, a function of said departures and arrivals of the trains, which determines the height and the color of the jets of this fountain.

According to this variant, the public space comprises a fountain with water jets arranged outside said public space, for example on the square of said public space. This fountain is controlled to present jets of water whose height and color depend on the arrivals and departures of trains. For example, the jets may be green to signal the arrival of a train and red to indicate the departure of a train. In addition, the jet may have a high height to signal the imminence of an arrival and / or departure, a low height to signal a wait before the next arrival or the next departure. The jets may also have a frequency that is related to the imminence of a departure and / or arrival. A system according to this variant can provide a user who is on the square of said public space visual information, easily interpretable, representative of an arrival and / or imminent departure of a train. This makes it possible to improve his experience of this public space, from the forecourt by providing information that can reassure him if he has the feeling of being late or on the contrary to push him to accelerate the pace to quickly reach the docks if he is late.

A sensor for detecting the arrivals and departures of the trains of said public space may be formed by a camera associated with image processing software or with piezoelectric sensors arranged on the rails at the level of the platforms or motion detectors arranged on the tracks in the vicinity of the entrances and exits of said public space. The information can also be transmitted in real time thanks to existing communication systems between the train and the station in the particular case of a station.

Advantageously and according to the invention:

at least one environmental sensor is a density sensor intended to be arranged in a user circulation space in said public space and configured to provide, as environmental information, the density of users in this area. space,

at least one room device is an interior lighting device intended to be arranged in this circulation space and configured to be able to transmit on command a color light chosen from a plurality of predetermined colors,

said processing unit is configured to supply at least one lighting device with a control signal, which is a function of said user density, which determines the color and the intensity of the light of this interior lighting device.

According to this variant, the invention makes it possible to improve the comfort in the circulation spaces of said public space, such as the stairs, the elevators, the corridors, etc. According to this variant, the lighting of the traffic spaces is a function of the density of users in this space to reduce the feeling of oppression and improve comfort. According to this variant, the contrast between two successive luminaires in a zone can be increased in order to substantially increase the speed of movement of the users. In this variant, lights facilitating the orientation of travelers can be activated to reduce congestion and facilitate user flows. Advantageously and according to the invention:

at least one environmental sensor is an external temperature sensor intended to be arranged outside said public space and configured to provide, as environmental information, the ambient ambient temperature,

at least one environmental sensor is a brightness sensor intended to be arranged outside said public space and configured to provide, as environmental information, the brightness and the external color temperature,

at least one ambient device is an interior lighting device intended to be arranged in a waiting zone of said public space and configured to be able to emit on command a color light chosen from a plurality of predetermined colors,

said processing unit is configured to supply, to at least one lighting device of said waiting zone, a control signal, which is a function of said outside temperature and said external brightness, which determines the color and intensity of said the light of this interior lighting device.

According to this variant, a waiting area of said public space, such as a dock, a waiting room, a ticket sales room, etc. comprises at least one lighting device whose color is a function of the temperature and the external brightness. Such a lighting device is for example a light-emitting diode (LED) device whose color or light emitted is a function of the temperature and the external brightness. For example, if the outside temperature is low, the processing unit will change the color of the lighting device to a warm color. Conversely, if it is hot outside, the processing unit will change the color of the lighting device to a cold color. For a greater porosity between the outside and inside of said public space, another possible scenario is to reproduce the color temperature of the environment inside said public space. The sensor of brightness and color temperature allows you to adjust the intensity and color of the LEDs emitted according to the natural daylight.

Advantageously and according to the invention:

at least one environmental sensor is a density sensor intended to be arranged in a user circulation space in said public space and configured to provide, as environmental information, the density of users in this area. a circulation space, said circulation space further comprising an alternation of acoustic absorbing materials and reverberant acoustic materials along this circulation space,

at least one ambient device is a pair of interior lighting devices intended to be arranged respectively in the vicinity of an absorbent acoustic material and a reverberant acoustic material of said circulation space,

said processing unit is configured to supply, to at least one pair of interior lighting devices, a control signal, which provides a brightness contrast between the two lighting devices, said contrast being a function of said density of users in said circulation space.

A system according to this variant makes it possible to define the rates of movement of the users in the vertical and / or horizontal circulation spaces in said public space. In particular, it makes it possible to accelerate the movements of users when said public space becomes denser. To do this, the circulation spaces comprise an alternation of acoustic absorbing and reverberant materials. The lights are parameterized and depend in particular on their arrangement with respect to the acoustic materials. In particular, the processing unit is configured to impose on the lighting device arranged in the vicinity of an absorbent acoustic material, a softer illumination than that imposed on the lighting device arranged in the vicinity of a reverberant material. The processing unit accentuates the lighting contrast when the user flows increase. This accentuation of the contrast makes it possible to make the movement more dynamic users and thus to streamline the public space.

Advantageously and according to the invention:

at least one environmental sensor is a density sensor intended to be arranged in a predetermined zone of said public space and configured to provide, as environmental information, the density of users in this predetermined zone,

at least one environmental sensor is a sensor for determining an ambient sound level intended to be arranged in this predetermined zone of said public space,

at least one ambient device is a device for broadcasting sound announcements intended for the users present in this predetermined zone of said public space,

said processing unit is configured to supply, to at least one announcement transmission device, a control signal, which determines the sound level and the directivity of the programs of the advertisements broadcast by this transmission device which is a function of said user density in said predetermined area and the ambient sound level of said predetermined area.

A system according to this variant makes it possible to adapt the sound level and the directivity of the loudspeakers, for example announcements related to train departures and arrivals, to ambient noise and to the density of users in a predetermined zone of said public space. Loudspeaker directivity, gain and frequency equalization of announcements to ambient noise and passenger density is defined to optimize message intelligibility. For example, the gain is set at 10 dB for an ambient noise level of less than 60 dB and is adjusted to 5 dB for ambient noise levels above 60 dB. A system according to this variant also makes it possible, particularly for stations open public spaces, to select only the devices for issuing advertisements located in the vicinity of users. For example, for a platform comprising a plurality of loudspeakers arranged along the platform, the density detector provides information on the area of the wharf where the ads are broadcast, which limits the nuisance to residents of the public area.

Advantageously and according to the invention:

at least one ambient device is an air ventilation device intended to be arranged in said predetermined zone of said public space,

said processing unit is configured to supply, to at least one ventilation device, a control signal, which determines a level of ventilation by this ventilation device which is a function of said user density in said predetermined zone.

According to this variant, the ventilation of at least one predetermined zone of said public space is a function of the density of users in this zone. This reduces the inconvenience caused by users resulting from promiscuity with other users.

The various variants of a system according to the invention can of course be implemented jointly in a public space such as a station to provide a station whose environment is managed dynamically according to a certain number of information representative of the real environment of the station. A system according to the invention makes it possible to form a "smart" station whose equipment adapts to the environmental conditions of the station.

The invention also relates to a system characterized in combination by all or some of the features mentioned above or below.

The invention relates to a public space, such as a railway station or underground, comprising at least one system as described above.

5. List of figures

Other objects, features and advantages of the invention will become apparent reading of the following description given solely by way of nonlimiting example and which refers to the appended figures in which:

FIG. 1 is a schematic functional view of a dynamic management system of the ambiances in a station according to one embodiment of the invention,

FIG. 2 is a schematic view of a forecourt of a station implementing a system according to one embodiment of the invention,

FIG. 3 is a schematic view of an underground station implementing a system according to one embodiment of the invention,

FIG. 4 is a schematic view of a circulation space of a station implementing a system according to one embodiment of the invention,

FIG. 5 is a schematic view of a station platform implementing a system according to one embodiment of the invention,

- Figure 6 is a schematic view of an underground station implementing a system according to one embodiment of the invention.

6. Detailed description of an embodiment of the invention

The examples of implementation of the invention described below relate essentially to stations but should not be considered as limiting.

In the figure, the scales and the proportions are not strictly respected and this, for purposes of illustration and clarity. Identical, similar or similar elements are designated by the same references.

As represented in FIG. 1, a dynamic management system for the ambiances of a railway or underground station or any other public space according to the invention comprises a plurality of environment sensors configured to provide information representative of a control environment. the station or space. These environmental sensors comprise, according to the embodiment of the figures, a density sensor 11 of a predetermined zone of the station, for example a platform of the station, an outdoor temperature sensor 12, an outdoor brightness sensor 13 and a sensor 14 of ambient noise in the station.

The management system also comprises a plurality of room devices adapted to transmit parameterizable physical signals perceptible by a plurality of sensory receptors of a user of the station. These ambient devices comprise, according to the embodiment of the figures, an outer luminous arch 31, a fountain 32 with external water jets, a device 33 for sounding a predetermined zone of the station, for example a station platform, a ventilation system 34 of a predetermined area of the station, for example a platform of the station, and interior lighting.

Of course, according to other embodiments, the ambience management system according to the invention may comprise other sensors and other ambient devices.

A management system according to the invention further comprises a unit 20 for processing the measurements provided by the sensors 11, 12, 13, 14. This processing unit 20 is configured to determine and supply parameterization signals to the room devices. 31, 32, 33, 34, 35 which are functions of the measurements provided by the sensors. The sensors can transmit their measurements to the treatment unit via a wired network, a wireless network (Wifi, bluetooth, etc.) or by a combination of wired and wireless networks. Likewise, the processing unit 20 can transmit its commands to the surround devices via a wired network, a wireless network or a combination of both. These networks are not necessarily the same as those used for the transmission of data between the sensors and the processing unit. The wired networks can indifferently be electrical networks, optical networks, magnetic networks and generally any type of network for transmitting data.

The processing unit 20 is for example implemented by a computer equipped with a microprocessor and an electronic card. This processing unit is configured to implement a plurality of modules of treatment, each module being intended to control one or more room devices. Generally speaking, throughout the text, a module is defined as a software element, a subset of a software program that can be compiled separately, either for independent use or to be assembled with other modules. of a program, or a hardware element, or a combination of a hardware element and a software subprogram. Such a hardware element may include an application-specific integrated circuit (ASIC) or a programmable logic circuit or equivalent hardware. In general, a module is an element (software and / or hardware) that ensures a function. In this case, its function is to provide a command to at least one room device that depends on the measurements provided by the environment sensors.

The commands can be determined by charts (usage scenarios) recorded in the processing unit 20. These charts associate with one or more measurements of one or more sensors, a predetermined control, which is provided either by an empirical knowledge of the notion of comfort associated with these measurements, either by prior simulation or by experience. Commands can also be determined by implementing a predetermined algorithmic routine that associates with one or more sensor measurements a predefined command.

For example and with reference to FIG. 2, a luminous arch 31 is controlled by the processing unit 20 as a function of the measurements of a density sensor arranged in a predetermined zone of the station. This sensor is for example a passive infrared pedestrian counter, known to those skilled in the art to provide an indication of the flow of pedestrians in a predetermined area. Such a sensor is for example arranged on a platform of the station. The control unit 20 is configured to determine three levels of density, a low density corresponding for example to less than one user per m2, a high density corresponding to more than four users per square meter and an average density corresponding to the density. between low density and high density. These values are of course given by way of illustration only and are not limiting of the scope of the present invention. The control unit 10 then transmits, as a function of the measurement provided by the density sensor, a command to the luminous arch 31. This luminous arch 31 is, for example, a light-emitting diode (LED) arch, alternately comprising green LEDs, orange LEDs and red LEDs, or RGB LEDs (the acronym RGB designating Red Green Blue). These LEDs are for example arranged so that they form a frame of an access door inside the station. The processing unit 10 controls the ignition of green LEDs only if the determined density is low. The processing unit only controls the lighting of the orange LEDs if the density is determined as average. Finally, the processing unit controls the ignition only of the red LEDs if the density is determined to be strong.

According to another example, and with reference to FIG. 2, the system comprises a fountain 32 with illuminated water jets and a sensor for detecting the arrivals and departures of the trains. This train arrival and departure detection sensor is not shown in the figure for the sake of clarity. This is for example a pair of piezoelectric sensors arranged on the rails at the platforms, a sensor at each end of the station, and connected to the processing unit 20. The activation of a first sensor determines the arrival of a train and activation of the second sensor determines the departure of a train. The processing unit 20 may, for example, be configured to control the fountain 32 with water jets so that the frequency and / or the height of the jets are representative of the imminence of the arrival and / or departure of the trains , by use of schedules and / or by the use of other sensors arranged along the track upstream of the station.

According to another example as shown in Figure 3, the ambience management system comprises an external temperature sensor 12. It is for example arranged on the roof of a building of the station. The system also includes a sensor 13 of the external brightness. This sensor 13 is for example arranged next to the temperature sensor 12. According to another variant, This is a weather station configured to provide both temperature and outdoor brightness.

The system further comprises a lighting device 35 of a predetermined area of the station, for example a station platform. This device comprises for example an optical fiber network 40 arranged between light sensors 36 arranged outside the station and the platform of the station to provide the external light to the wharf. This provides natural light at the platform of the station. The lighting device 35 further comprises LEDs whose color is customizable. Thus, the color temperature of the lighting device is dependent on the actual outdoor temperature. The processing unit 20 includes a module for changing the color of the LEDs of the illumination device to a warm color if the outside temperature is low, for example below 10 ° C. On the other hand, the processing unit 20 changes the color of the LEDs to a cold color if the outside temperature is high, for example above 25 ° C. The processing unit 20 further controls the intensity of the lighting device 35 as a function of the brightness measurements provided by the sensor 13. Different brightness variations are possible depending on the measurements. For example, the processing unit determines a delta between the actual brightness and a default brightness and applies this delta measurement to the brightness of the lighting device.

According to another embodiment and in connection with FIG. 4, the system comprises a density sensor arranged in a user circulation corridor. This sensor, not shown in the figure, is for example a piezoelectric sensor housed under the ground surface 51 of the circulation corridor. This corridor comprises an alternation of absorbent materials 41 and reverberant materials 42, in particular sound, that is to say acoustic materials, along this corridor of circulation. In addition, the system comprises a pair of internal lighting devices 35a, 35b intended to be respectively arranged in the vicinity of an absorbent material 41 and a reverberant material 42. These lighting devices 35a, 35b are for example LED lights.

According to this embodiment, the processing unit 20 is configured to impose on each lighting device 35a arranged in the vicinity of an absorbent material 41, a softer illumination than that imposed on each lighting device 35b arranged in the vicinity of a reverberant material 42. The processing unit is furthermore configured to accentuate the lighting contrast when the density sensor indicates an increase in the flow of passengers in the corridor. This accentuation of the contrast makes it possible to stimulate the movement of the users and thus to make the station more fluid. This increase in contrast is, for example, proportional to the increase in the flow of users in the corridor.

According to another embodiment, and in connection with FIG. 5, the system comprises a density sensor arranged on a station platform and a plurality of loudspeakers 33 distributed regularly along the platform. The processing unit 20 is configured to be able to limit the broadcasting of announcements only to the loudspeakers 33 located in the areas of the platform where the presence of users is confirmed by the density sensor.

Alternatively or in combination, the system further comprises a detector

14 of the ambient noise level, and the processing unit 20 adjusts the level of ads to the detected noise level.

According to another embodiment, and in connection with FIG. 6, the system comprises a density sensor 11 which, in this embodiment, is a video surveillance camera associated with a software for counting individuals. The system further comprises a plurality of fans 34 arranged on the side walls of the dock. The processing unit 20 controls the fans 34 as soon as the user density exceeds a predetermined value, for example four users per m2. Alternatively, the ventilation is proportional to the density of users.

The invention is not limited to the embodiments described. In particular, other types of sensors may be implemented and other room devices may be provided. In addition, the processing unit may be configured to provide further controls of the surround devices based on one or more of the sensors implemented.

Claims

1. Dynamic management system of the ambiances of a public space such as a railway or underground station including:

a plurality of sensors, called environment sensors (11, 12, 13, 14), configured to provide information representative of an environment of said public space, called environment information, said sensors (11, 12, 13, 14) intended to be arranged in said public space and / or in its immediate vicinity,

a plurality of parametric physical signal transmission devices forming stimuli perceptible by at least one sensory receiver of the users of said public space, said room devices (31, 32, 33, 34, 35), said room devices being intended to be arranged in said public space and / or in its immediate vicinity,

a unit (20) for processing said environment information configured to receive and analyze said environment information and for determining and providing parameterizing signals to said room devices (31, 32, 33, 34, 35) which are functions said environment information, so as to confer on said public space an environment adjusted to that environment of said public space.

2. The system of claim 1 wherein:

at least one environmental sensor is a density sensor

(11) to be arranged in a predetermined area of said public space and configured to provide, as environmental information, the density of users in said predetermined area,

at least one ambient device is an external lighting device (31) intended to be arranged outside said public space and configured to be able to transmit on command a color light selected from a plurality of predetermined colors, said processing unit (20) is configured to provide at least one lighting device (31) with a control signal, which is a function of said density of light. users, which determines the color of the light of this lighting device (31).

System according to one of Claims 1 or 2, in which:

at least one environmental sensor is a sensor for detecting arrivals and departures of trains of said public space,

at least one ambient device is an illuminated water fountain (32) intended to be arranged outside said public space, and configured to be able to emit on command illuminated water jets of at least one color selected from a plurality of predetermined colors and a height selected from a plurality of predetermined heights,

said processing unit (20) is configured to provide at least one illuminated water fountain a control signal, a function of said train departures and arrivals, which determines the height and color of the jets of said fountain.

System according to one of Claims 1 to 3, in which:

at least one environmental sensor is a density sensor (11) intended to be arranged in a user circulation space in said public space and configured to provide, as environmental information, the density of users in this space,

at least one room device is an interior lighting device intended to be arranged in this circulation space and configured to be able to emit on command a color light selected from a plurality of predetermined colors, said processing unit (20) is configured to provide at least one lighting device with a control signal, a function of said user density, which determines the color and intensity of the light of this interior lighting device.

System according to one of Claims 1 to 4, in which:

at least one environmental sensor is an external temperature sensor (12) intended to be arranged outside said public space and configured to provide, as environmental information, the outside ambient temperature,

at least one environmental sensor is a brightness sensor (13) intended to be arranged outside said public space and configured to provide, as environmental information, the external brightness,

at least one room device is an interior lighting device (35) intended to be arranged in a waiting zone of said public space and configured to be able to transmit on command a color light chosen from a plurality of predetermined colors,

said processing unit (20) is configured to supply, to at least one lighting device of said waiting area, a control signal, a function of said outside temperature and said external brightness, which determines the color and the intensity of the light of this indoor lighting device (35).

System according to one of Claims 1 to 5, in which:

at least one environmental sensor is a density sensor (11) intended to be arranged in a user circulation space in said public space and configured to provide, as environmental information, the density of users in this circulation space, said circulation space further comprising an alternation of acoustic absorbing materials (41) and reverberant acoustic materials (42) along this circulation space,

at least one ambience device is a pair of devices lighting devices (35a, 35b) intended to be respectively arranged in the vicinity of an absorbing acoustic material (41) and a reverberant acoustic material (42) of said circulation space,

said processing unit (20) is configured to supply, to at least one pair of interior lighting devices (35a, 35b), a control signal, which provides a brightness contrast between the two lighting devices, said contrast being a function of said density of users in said circulation space.

System according to one of Claims 1 to 6, in which:

at least one environmental sensor is a density sensor (11) intended to be arranged in a predetermined zone of said public space and configured to provide, as environmental information, the density of users in this predetermined zone,

at least one ambient device is a device for sending sound announcements (33) intended for the users present in this predetermined zone of said public space,

said processing unit (20) is configured to supply, to at least one announcement transmitting device, a control signal, which determines the sound level of the advertisements broadcast by said transmitting device which is a function of said density of d in said predetermined zone and the ambient sound level of said predetermined zone.

System according to one of Claims 1 to 7, in which:

at least one environmental sensor is a density sensor (11) to be arranged in a predetermined area of said public space and configured to provide, for information purposes environment, the density of users in this predetermined zone,

at least one ambient device is an air ventilation device (34) intended to be arranged in said predetermined zone of said public space,

said processing unit (20) is configured to supply, to at least one ventilation device, a control signal, which determines a level of ventilation by said ventilation device which is a function of said user density in said predetermined area.

Public space, such as a railway or underground station including at least one system according to one of the preceding claims.