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Title:
A DEVICE FOR PROVIDING INFORMATION ASSOCIATED WITH A PHYSICAL STRUCTURE TO ONE OR MORE USER DEVICES BASED AT THE SITE OF THE PHYSICAL STRUCTURE
Document Type and Number:
WIPO Patent Application WO/2021/028293
Kind Code:
A1
Abstract:
A device for providing information associated with a physical structure to one or more user devices based at the site of the physical structure, the device comprising a wireless transmitter and a wireless power receiver configured to receive power wirelessly from an external source and to deliver power to the wireless transmitter, wherein upon delivery of power from the wireless power receiver to the wireless transmitter, the transmitter is configured to transmit a wireless signal for establishing a wireless communication channel between the device and the one or more user devices, thereby to communicate information associated with the physical structure to the one or more user devices.

Inventors:
CAMERON STEPHEN ALEXANDER (GB)
Application Number:
PCT/EP2020/072056
Publication Date:
February 18, 2021
Filing Date:
August 05, 2020
Export Citation:
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Assignee:
4D CONCEPTS LTD (GB)
International Classes:
E04H13/00; H04B5/00; G06F16/955
Foreign References:
US9350425B12016-05-24
CN201843386U2011-05-25
EP3407461A12018-11-28
Attorney, Agent or Firm:
GRANT, David (GB)
Download PDF:
Claims:
CLAIMS

1. A system comprising: a physical structure located at a site; and a device configured to provide information associated with the physical structure to one or more user devices located in the vicinity of the physical structure, the device being embedded and hermetically sealed within the physical structure, the device comprising: a wireless transmitter; and a wireless power receiver configured to receive power wirelessly from an external source and to deliver power to the wireless transmitter; wherein upon delivery of power from the wireless power receiver to the wireless transmitter, the transmitter is configured to transmit a wireless signal for establishing a wireless communication channel between the device and the one or more user devices, thereby to communicate information associated with the physical structure to the one or more user devices.

2. A system according to claim 1, wherein the device is configured to act as a wireless hub for allowing multiple user devices to connect to the device and obtain the information associated with the physical structure.

3. A system according to claim 1 or 2, wherein the wireless signal for establishing the wireless communication channel comprises a beacon signal, the beacon signal providing data to be used by the one or more user devices in connecting to the device.

4. A system according to any one of the preceding claims, wherein the device is configured to transmit the information associated with the physical structure in the form of a page of content viewable on the one or more user devices.

5. A system according to claim 4, wherein the content page comprises a link to one or more other pages of content available to be transmitted from the device to the one or more user devices.

6. A system according to any one of the preceding claims, comprising a memory for storing the information associated with the physical structure.

7. A system according to any one of the preceding claims, wherein the information pertains to the site at which the physical structure is located.

8. A system according to any one of the preceding claims, wherein the wireless power receiver is configured to receive power from the external source by inductive coupling with the external source.

9. A system according to any one of the preceding claims, wherein the wireless communication channel comprises a WiFi channel.

10. A system according to any one of the preceding claims, wherein the device is configured to receive additional information from the one or more user devices via the wireless communication channel and to store the additional information in memory.

11. A system according to any one of the preceding claims, wherein the device is configured to operate in two modes; wherein, in the first mode, the device is configured to retrieve the information from memory stored within the device, and in the second mode, the device is configured to act as an access point to an external network, the device being configured to retrieve the information from a server over the external network.

12. A system according to claim 11, wherein the choice of which mode the device operates in is determined by the orientation of the device.

13. A system according to any one of the preceding claims, wherein the device is sealed in a casing.

14. A system according to any one of the preceding claims, wherein the communication channel is such as to allow two-way communication between the device and the one or more user devices.

15. A system according to any one of the preceding claims, wherein the physical structure comprises a monument.

16. A system according to claim 15, wherein the monument is commemorative of a person or event, and the information associated with the monument concerns the person or event being commemorated.

17. A system according to claim 16, wherein the monument is a gravestone.

Description:
A device for providing information associated with a physical structure to one or more user devices based at the site of the physical structure

FIELD

Embodiments described herein relate to a device for providing information associated with a physical structure to one or more user devices based at the site of the physical structure. In particular, embodiments relate to a device for providing information associated with a monument to one or more user devices.

BACKGROUND

Devices for storing and delivering information to people visiting monuments are known in the art. An example of such a device is described in US7395960. In that document, a memory device is affixed to a monument at a remote location, such as a tombstone in a cemetery, for example. The memory device comprises a contact memory device that stores information relating to the monument and/or its location. The contact memory device can be read through active or passive contact with a reading device carried by a user, thereby allowing the user to access the stored information.

A problem with using such contact memory devices is that the user must be in very close proximity to the contact memory device in order to access the desired information.

Moreover, it is only possible for a single user to read the contact memory device at a time, meaning that access to the stored information is limited to one person at a time.

It is desirable to provide a device that addresses the above problems.

SUMMARY

According to a first aspect of the invention, there is provided a device for providing information associated with a physical structure to one or more user devices based at the site of the physical structure, the device comprising: a wireless transmitter; and a wireless power receiver configured to receive power wirelessly from an external source and to deliver power to the wireless transmitter; wherein upon delivery of power from the wireless power receiver to the wireless transmitter, the transmitter is configured to transmit a wireless signal for establishing a wireless communication channel between the device and the one or more user devices, thereby to communicate information associated with the physical structure to the one or more user devices.

According to a second aspect of the present invention, there is provided a system comprising: a physical structure located at a site; and a device for providing information associated with the physical structure to one or more user devices located in the vicinity of the physical structure, the device being embedded and hermetically sealed within the physical structure, the device comprising: a wireless transmitter; and a wireless power receiver configured to receive power wirelessly from an external source and to deliver power to the wireless transmitter; wherein upon delivery of power from the wireless power receiver to the wireless transmitter, the transmitter is configured to transmit a wireless signal for establishing a wireless communication channel between the device and the one or more user devices, thereby to communicate information associated with the physical structure to the one or more user devices.

In some embodiments, the wireless signal for establishing the wireless communication channel comprises a beacon signal, the beacon signal providing data to be used by the one or more user devices in connecting to the device.

In some embodiments, the device is configured to transmit the information associated with the physical structure in the form of a page of content viewable on the one or more user devices. In some embodiments, the content page comprises a link to one or more other pages of content available to be transmitted from the device to the one or more user devices.

In some embodiments, the device comprises of a memory for storing the information associated with the physical structure. In some embodiments, the information pertains to the site at which the physical structure is located.

In some embodiments, the wireless power receiver is configured to receive power from the external source by inductive coupling with the external source. In some embodiments, the wireless communication channel comprises a WiFi channel.

In some embodiments, the device is configured to receive additional information from the one or more user devices via the wireless communication channel and to store the additional information in memory.

In some embodiments, the device is configured to operate in two modes; wherein, in the first mode, the device is configured to retrieve the information from memory stored within the device, and in the second mode, the device is configured to act as an access point to an external network, the device being configured to retrieve the information from a server over the external network.

In some embodiments, the choice of which mode the device operates in is determined by the orientation of the device.

In some embodiments, the device is sealed in a casing.

In some embodiments, the communication channel is such as to allow two-way communication between the device and the one or more user devices.

In some embodiments, the physical structure comprises a monument. In some embodiments, the monument is commemorative of a person or event, and the information associated with the monument concerns the person or event being commemorated. In some embodiments, the monument is a gravestone.

BRIEF DESCRIPTION OF DRAWINGS

Embodiments of the invention will now be described by way of example with reference to the accompanying drawings in which:

Figure 1 shows an example of a device according to an embodiment;

Figure 2 shows a schematic of a device according to an embodiment;

Figure 3 shows a schematic of a device according to a further embodiment; Figure 4 shows a schematic of a device according to a further embodiment;

Figure 5 shows an example of how a device may be embedded into a gravestone according to an embodiment;

Figure 6 shows a flow-chart of steps used in accessing information stored in a device according to an embodiment.

DETAILED DESCRIPTION

Figure 1 shows an example of a device 100 according to an embodiment. In this embodiment, the device is embedded in a physical structure 101. The physical structure may be any fixed structure including, for example, a monument, a statue, a memorial, a museum display, or a commemorative plaque on a wall. The device 100 provides a means for preserving information about the structure and/or its location over long periods of time.

The device 100 is configured to receive power wirelessly from an external source 103 without requiring physical contact between electrical terminals or contacts. In the present embodiment, the external source 103 is a wireless charging device, but other forms of power supply may be used that do not require physical contact between the device 103 and the device 100. As an example, the device 100 may comprise one or more photovoltaic cells that receive power from a light or infra-red emitter provided on the external device 103. The use of the external device 103 obviates the need for mains power connection for the device 100, which may not be available at the site at which the physical structure is located.

Once powered by the external device 103, the device 100 is able to establish a wireless communication channel between the device 100 and a user device 105, thereby to communicate information associated with the physical structure to the user device. (The term “wireless communication” as used herein can be understood to refer to communication via electromagnetic waves, without the need for a physical contact between the transmitter and receiver). The device 100 may communicate with the user device 105 in one or more wavelength bands across the electromagnetic spectrum. For example, the wireless communication channel may be located in any one of the radio wave, infrared, optical, and ultraviolet portions of the electromagnetic spectrum.

The user device 105 can be any electronic device capable of receiving information sent wirelessly and presenting that information to a user. For example, the user device 105 may be able to communicate via a WiFi channel, Bluetooth channel, Infrared, LiFi, and the like.

By way of example, the user device 105 may be a mobile phone, smartphone, smartwatch, tablet, laptop, personal digital assistant (PDA), and the like.

Figure 2 shows the device 100 of Figure 1 in more detail. In the present embodiment, the device includes a memory 201 in which is stored information relating to the structure and/or site in which the structure is located. Where the device 100 is embedded within a gravestone, the data stored on the device can include a eulogy of the deceased person or their biography, for example. Information stored in the memory of the device can also include videos, pictures, sound recordings and literary works from the deceased. In other examples, where the device is affixed to or embedded in a plaque on a historical building or statue, the information can relate to the historical significance of that structure.

The device further includes a wireless power receiver 203, configured to receive power from the external device 103. In the present embodiment, the wireless power receiver 203 comprises an induction coil, which is configured to receive power wirelessly from the external device 103 through electromagnetic induction. The wireless power receiver 203 is connected to processing electronics 205, which may comprise one or more microprocessors. The processing electronics are also connected to the memory 201 and a wireless transmitter 207 that is used to transmit information stored in the memory wirelessly to the user device. The transmitter 207 may also function as a receiver for receiving wireless signals sent from the user device. In addition to controlling the delivery of power from the wireless power receiver 203 to the transmitter 207, the processing electronics 205 process the outgoing and incoming signals from the wireless transmitter, and retrieve the required files from the memory 201 for transmission to the user device.

In some embodiments, the device may include an energy storage system for temporarily storing energy obtained from the wireless power receiver. Once powered by the external device 103, the wireless power receiver 203 can charge the energy storage system, which will in turn supply power to the wireless transmitter, allowing the device to function in the event the external device 103 is removed. The energy storage system may take the form of one or more capacitors arranged to charge when energy is supplied wirelessly to the wireless power receiver, thereby storing the supplied energy in an electrical field. The capacitor(s) may in turn then supply power to the wireless transmitter by discharging. It will be appreciated that the use of the wireless power receiver (either with or without the one or more capacitors) can obviate the need for any internal battery for the device, particularly batteries that store energy in chemical form and which may be prone to leakage, as well as requiring periodic maintenance, and ultimately replacement. Thus, in some embodiments, the device may not include an internal battery.

The components of the device are contained within a hermetically sealed casing 209, which is durable and resistant to damage from the weather. The casing 209 is transparent to electromagnetic waves used in transmitting and receiving information to and from the device. The hermetically sealed casing 209 may consist of an air-tight sleeve which is vacuum sealed and electrically insulating. The device and its sleeve can be immersed in an epoxy resin, polymer or silicon liquid, which is cured to set hard and become immune to weathering. The casing may be waterproof, for example. The device 100 being hermetically sealed allows for the information stored on the memory 201 to be preserved; for example, the casing can help prevent the internal components from rusting and/or being damaged over time and thus rendered unusable.

The device 100 is used to provide information about the monument and/or the site on which it is located to a person visiting the site. In use, a visitor to the site approaches the monument with an external source of power 103 such as a wireless charging power-bank, and a user device 105 such as a mobile phone, on which they can receive information transmitted from the device 100. The user supplies power to the device 100 by placing the wireless charging power-bank in proximity to the device, with the power-bank powering the device by means of electromagnetic induction. On receiving power, the wireless power receiver supplies power to the wireless transmitter, allowing it to establish a wireless communication channel between the device 100 and the user device 105. The device 100 can, in effect, act as a wireless hub, broadcasting wireless signals that allow user devices to connect to the device at the same time and access information stored thereon. By doing so, the device 100 may create a local wireless network in which multiple users can connect to the device and retrieve information stored in its memory.

In some embodiments, once powered by the external device 103, the wireless transmitter may transmit one or more wireless beacon signals containing information about the device 100 and any necessary parameter settings that the user device(s) must employ in order to begin to receive and/or transmit data to the device 100. The user device(s) detect the beacon signal(s) and transmits a message to the device 100 requesting to connect to the network. Once the communication channel is established between the device 100 and the user device 105, the user is able to send requests for information about the site to the device.

In some embodiments, the user is able to view content received from the device 100 in a browser installed on the user device 105. On establishing a connection between the device 100 and the user device 105, the browser may display a home page transmitted by the device 100, providing an introduction to the site and a list of contents available for retrieval on the user’s device. The list of contents may be displayed in the form of one or more web links, which when selected by the user, send a request to the device 100 to retrieve and send content contained in other files in the memory to the user device 105. In this way, the user is able to browse information stored in the memory of the device 100 on their personal user device 105.

The information stored in memory on the device 100 can be stored in a wide range of formats. The information may be stored in either an encrypted format or unencrypted format, and similarly may be either compressed or non-compressed. The information stored in memory may include video files, image files, text files and web page files. The web page files can be stored in a range of markup languages and/ or hypertext and/or hyperlinks to be displayed on a plurality of web browsers; this may include versions of Hypertext Markup Languages (HTML), Extensible Hypertext Markup Languages (XHTML), and the like.

In some embodiments, the data stored in each file location in the memory of the device 100 may be identified by a distinct Uniform Resource Identifier (URI) to allow access for a user device to access the information from the memory 201 by the web browser. It will be apparent that a Uniform Resource Locator (URL) can be used as the URI.

In the case where the user obtains access to the information stored on the device 100 through a web browser, the wireless communication channel may comprise a Hypertext Transfer Protocol (HTTP) connection. Encrypted communications between the user device and the device 100 may be established using the HTTP Secure (HTTPS) protocol or Secure Shell (SSH) cryptographic network protocol.

It will be appreciated that once the device 100 has been activated and commenced transmitting wireless signals, multiple users may connect to the device via their respective user devices and issue requests to retrieve information stored within the memory of the device 100. Accordingly, the retrieval of information from the device 100 is not limited to a single device at any one time, and users are able to browse a variety of content pages at their own choosing by selecting different addresses within their browsers.

In some embodiments, the device 100 may be configured to establish an internet connection via an external network, such as a cellular network. The connection between the device 100 and the internet can be made via plurality of Internet protocols such as User Datagram Protocols (UDP), Dynamic Host Configuration Protocol (DCHP), allocated IP or fixed IP. In this way, the device 100 can act as an access point to a larger network and retrieve information for sending to the user from a remote server, rather than only transmitting information that is stored locally on the device 100.

The range of communication between each user device and the device 100 will depend on the frequency of the transmitted electromagnetic waves and the communication protocol.

The communication band may be selected so as to allow users with their devices to roam near the vicinity of the monument, without the need for the user(s) to remain in close proximity to the structure.

The wireless communication channel that is established between the device 100 and each user device may be either personal or private. Information sent between the device 100 and each user device may be encrypted (for example, end-to-end encrypted) or unencrypted. In the case of end-to-end encryption, only the device 100 and the user device 105 may be able to decrypt communications sent between those two devices.

It will be appreciated that the data stored on the memory 201 can be modified by the user device 105. In some embodiments, a user, on connecting to the device 100, may upload or transfer additional data and/or comments to the memory, which can then be accessed by subsequent visitors to the site. By way of example, in the case of the device being embedded within a gravestone, the device 100 may contain images of the deceased and over time, new images that have been found may be added by family and friends who wish to maintain a permanent store of these new images. In another example, visitors to the site may use the device 100 to function as a guestbook, adding comments or recommendations that can then be viewed by others who subsequent connect to the device 100.

In some embodiments, the device 100 may be configured to function on one of two modes.

In the first mode, the device 100 may not connect to an external network, but simply facilitate wireless connections between itself and one or more user devices, such that those user devices may then request and retrieve information stored locally in the memory of the device 100. In the second mode, the device may connect to the external network, facilitating connection between the user devices and that external network. Precisely which of these two modes the device will operate in may be determined by its orientation. Figure 3 shows an example embodiment of the device 300 in which the device comprises an orientation sensor 211 (components that have the same function as in Figure 2 are numbered the same in Figure 3). The orientation sensor 211 may comprise of a gyroscope or a mercury switch. The orientation sensor 211 is used to determine the orientation of the device 300 with respect to a particular plane and in turn can be used to configure the mode of the device 300.

Figure 4 shows another embodiment of a device 400 that may be embedded in the gravestone 101 as shown in Figure 1. In Figure 4, components that have the same functionality as that shown in Figure 2 and 3 are labelled with the same reference numerals. It can be seen that the device 400 is similar to that shown in Figures 2 and 3, but in this case, the induction coil 203 is not enclosed in the sealed durable casing 209 but is still connected to the processing electronics 205 and can distribute power to the components in the sealed durable casing 207. In this embodiment, the induction coil can be placed in a different location from the other components of the device 400. The induction coil can therefore be placed in a part of the fixed structure which is more convenient in terms of allowing the user to access the coil with the external device 103. For example, the user may use a portable power bank to act as a wireless charger for supplying power to the device 400, and the induction coil may be located at a point in the physical structure that allows the user to rest the power bank on the physical structure.

Figure 5 shows an example of how the device 100 of Figure 1 can be embedded within the gravestone 101. The device may be fully embedded within the gravestone. A hole is cut into the gravestone and the device 100 placed inside. The hole is then sealed. The seal 600 can be made to be inconspicuous, or can be provided with a marker to indicate the presence of the device and/or where to position the external device 103 used to supply power to the device 100. In other embodiments where the power receiver is not enclosed within the durable casing, a different hole can be cut to allow the power receiver and the encased device to be embedded. The seal can either be designed to indicate the presence of the device and the position at which the external device 103 should be placed in order to power the device 101, or the seal can be made to look inconspicuous such that it does not detract from the overall aesthetic of the structure.

It will be appreciated that the device may be embedded in the structure during the manufacture or building of the structure.

Figure 6 shows an example flow chart of how the device of Figure 1 can be used. In step S601, the user approaches the monument with their user device and external power device for supplying power to the device embedded in the monument. The user may carry a wireless charging power-bank, for example. In step S602, the user provides power to the device embedded in the monument by means of electromagnetic induction from the power- bank. Once power has been transferred to the device 100, the device 100 emits a wireless signal for establishing a communication channel between itself and the user device (step S603). The user device uses the signal to establish a connection with the device embedded in the monument (step S604). In step S605, the user is able to access the data stored in memory of the device via the wireless communication channel.

While certain embodiments have been described, these embodiments have been presented by way of example only and are not intended to limit the scope of the invention. Indeed, the novel methods, devices and systems described herein may be embodied in a variety of forms; furthermore, various omissions, substitutions and changes in the form of the methods and systems described herein may be made without departing from the scope of the invention. The accompanying claims and their equivalents are intended to cover such forms or modifications as would fall within the scope of the invention.