WO2000042494A1 - Interactive display system - Google Patents

Interactive display system Download PDF

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Publication number
WO2000042494A1
WO2000042494A1 PCT/GB2000/000012 GB0000012W WO0042494A1 WO 2000042494 A1 WO2000042494 A1 WO 2000042494A1 GB 0000012 W GB0000012 W GB 0000012W WO 0042494 A1 WO0042494 A1 WO 0042494A1
Authority
WO
WIPO (PCT)
Prior art keywords
signals
display
display system
remote signalling
interactive display
Prior art date
Application number
PCT/GB2000/000012
Other languages
French (fr)
Inventor
Andrew Robert Oakley
Ian Spencer Joscelyne
Peter Unsworth
Original Assignee
Tds Cad Graphics Limited
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Tds Cad Graphics Limited filed Critical Tds Cad Graphics Limited
Priority to CA2355649A priority Critical patent/CA2355649C/en
Priority to US09/889,137 priority patent/US7584432B1/en
Priority to DE60001631T priority patent/DE60001631T2/en
Priority to JP2000594006A priority patent/JP2002535704A/en
Priority to EP00900067A priority patent/EP1141815B1/en
Priority to AU18834/00A priority patent/AU1883400A/en
Publication of WO2000042494A1 publication Critical patent/WO2000042494A1/en
Priority to US12/539,012 priority patent/US20090295723A1/en

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Classifications

    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09BEDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
    • G09B5/00Electrically-operated educational appliances
    • G09B5/08Electrically-operated educational appliances providing for individual presentation of information to a plurality of student stations
    • G09B5/14Electrically-operated educational appliances providing for individual presentation of information to a plurality of student stations with provision for individual teacher-student communication
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/03Arrangements for converting the position or the displacement of a member into a coded form
    • G06F3/033Pointing devices displaced or positioned by the user, e.g. mice, trackballs, pens or joysticks; Accessories therefor
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09BEDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
    • G09B5/00Electrically-operated educational appliances
    • G09B5/06Electrically-operated educational appliances with both visual and audible presentation of the material to be studied
    • G09B5/067Combinations of audio and projected visual presentation, e.g. film, slides

Definitions

  • This invention relates to an interactive display system, particularly, but not limited to an interactive display system which includes a remote signalling device.
  • Existing interactive displays make use of an electronic whiteboard which can sense the position of an electronic pen on the surface of the whiteboard.
  • the electronic pen can be used in the same way as a computer mouse to manipulate objects on the computer display by passing the electronic pen over the surface of the whiteboard.
  • This type of interactive whiteboard enables the teacher to manipulate and annotate material rapidly as a result of audience questions.
  • the use of interactive whiteboards improves teaching productivity and also improves student comprehension.
  • Such whiteboards allow use to be made of good quality digital teaching materials, and allow data to be manipulated and presented using audio visual technologies.
  • an interactive display system comprises a display device, an image projector, computing means and at least one remote signalling device, in which the computing means is arranged to supply image information to the projector, which is arranged to project said image information onto the display device; and in which the or each remote signalling device is operable to transmit signals to a receiver portion of the display device, the display device being arranged to supply the signals to the computing means, said signals being stored by the computing means for display.
  • the display means is preferably a communications hub of the display system arranged to receive control signals from a pointing device and/or a remote control device and transmit those signals to the computing means in order to control the image projected onto the display means.
  • the display means uses a single communications link between it and the computing means which is capable of conveying signals both from the pointing device and the or each remote signalling device, to enable a most efficient transfer of data.
  • this single link is a wireless connection such as infra-red means or radio means.
  • the or each remote signalling device may be a remote control device which is operable to transmit control signals to a receiver portion of the display device, which control signals are supplied to the computing means and are operable to control the computing means and thus image information supplied to the projector.
  • the display device may include a wireless transmitter portion, preferably integral with the receiver portion.
  • the display device may include position indication means for indicating the position of a pointing device relative to a surface of the display device.
  • the interactive display system may be operable to calibrate the location of an image projected onto the display device relative to the display device.
  • the pointing device may be operable to effect the calibration.
  • the pointing device may be operable to induce image control signals in the position indication means, which image control signals are operable to control the computing means and thus image information projected onto the display means.
  • image control signals are operable to control the computing means and thus image information projected onto the display means.
  • pressure exerted by the pointing device on the display means may induce control signals in the position indication means.
  • the pointing device may include a laser, the position of light from which on the display means is used to cause control signals in the position indication means to be generated.
  • the pointing device may be arranged to take precedence over the or each remote signalling device, with signals from the or each remote signalling device being ignored if signals from the pointing device are being received.
  • the pointing device may be operable to selectively enable the or each remote signalling device, preferably by signals supplied via the display means.
  • the receiver portion of the display device may be located in an upper part thereof, preferably on a front face thereof.
  • the display device may include an output portion arranged to transmit signals from both the receiver portion and the position indication means to the computing means.
  • the output portion may transmit the signals by wire link or by wireless link.
  • the output portion may be operable to pass signals by wire to a separate wireless transmitter for transmission.
  • Said wireless transmitter portion may be mounted for ease of transmission to the computing means, on a ceiling for instance.
  • the wireless transmitter may also be a wireless receiver, to receive signals from the or each remote signalling device.
  • the computing means may be a standalone computer, such as a personal computer or may be a networked computer or networked computer server.
  • the or each remote signalling device may be operable to transmit signals to the receiver portion only in response to a request signal from the display means, preferably from the transmitter portion.
  • the display means may request information from each remote signalling device in turn, by polling. For instance, by interrogating each remote signalling device in turn to gather data from them sequentially. It will be understood however that other arrangements may be utilised and that the system may allow for simultaneous reception of data from more than one such remote signalling device.
  • the or each remote control device may be operable to control the computing means in substantially the same manner as a keyboard and mouse combination.
  • the system preferably comprises one master control device, which may be a remote control device or a pointing device, and a plurality of subsidiary remote signalling devices, in which case the master control device is preferably operable to control display means and computer to selectively activate and deactivate the subsidiary signalling devices.
  • the master control device is preferably operable to control display means and computer to selectively activate and deactivate the subsidiary signalling devices.
  • the subsidiary remote signalling devices may be response devices for responding to information displayed on the display means by a person controlling the master control device.
  • an interactive display system comprises a display device, computing means and at least one remote signalling device, in which the computing means is arranged to supply image information to the display device; and in which the or each remote signalling device is operable to transmit signals to a receiver portion of the display device, the display device being arranged to supply the signals to the computing means, said signals being stored by the computing means for display.
  • a method of operating an interactive display system comprises projecting an image of a computer display of a computer onto a display device, receiving signals at a receiver portion of the display device, which signals are transmitted from at least one remote signalling device, and transmitting those signals to the computer.
  • the method may include the signals from the or each remote signalling device being independent of the location of the remote signalling device relative to the display means, for instance the signals from the remote signalling device may contain non-position related data.
  • the signals from the or each remote signalling device are preferably transmitted in response to information displayed on the display device.
  • an interactive display device comprises a receiver portion for receiving signals from a remote signalling device, the display device being operable to supply the received signals to a computing means and suitable for displaying an image from a computing means projected onto said display device.
  • the display device preferably forms a communications hub for an interactive display system.
  • the invention extends to a remote signalling device for use with the interactive display system described in the first aspect.
  • Figure 1 is a schematic view from above of an interactive display system installed in a classroom
  • Figure 2 is a schematic side view of the layout in Figure 1;
  • Figure 3 is a schematic front view of an interactive display device
  • Figure 4 is a schematic block diagram of the parts of interactive display device
  • Figure 5 is a schematic block diagram of the parts of a feedback device for use with the interactive display system
  • Figure 6 is a schematic diagram of the interconnections between the various parts of an interactive display system installation
  • Figure 7 is a schematic view from above of a classroom layout for an alternative embodiment of interactive display system.
  • Figure 8 is a schematic block diagram of the parts of a remote receiver of a computer/projector portion of the interactive display system.
  • an interactive display system comprises a whiteboard 10 which communicates with a PC 12.
  • a projector 14 receives signals from the PC 12 which are translated in to a corresponding projection image which is projected on to the whiteboard 10.
  • the image projected on to the whiteboard 10 is the same as that shown on a computer screen 28.
  • an electronic pen 16 the position of which can be detected electronically by means of a plurality of wires embedded beneath the surface of the whiteboard 10, and using methods already known in the art, the electronic pen 16 can function in the same way as a computer mouse.
  • the whiteboard may be of the resistive type, in which the presence of a pointing device is detected by pressure causing two layers to contact each other at a particular location, which location is then detected.
  • a further alternative is the use of a laser pen. The position on the whiteboard of a light spot from the pen is calculated by detecting a reflection of the laser light from the whiteboard back to the laser pen by triangulation.
  • the image projected on to the whiteboard 10 may also be manipulated by means of a remote control device 18, which uses infrared communication to transmit signals to a transponder 20 built into the whiteboard 10.
  • the signals received by the transponder 20 are then relayed to the PC 12, either by a wire link or a wireless link.
  • Figure 6 shows a typical schematic of the connections between various parts of the interactive display system.
  • the whiteboard 10 comprises a grid portion 52 which comprises two sets of wire loops arranged orthogonally to each other. An electric signal from the pen 16 induces a current in the wire loops which can be used to determine the position of the pen 16.
  • the infrared transponder 20 is located behind an optical window 24 on an upper part of the front of the whiteboard 10 which allows two way infrared communications.
  • a connector (not shown) is provided on the rear of the whiteboard 10, which connector allows signals to and from the infrared transponder 20 of the whiteboard to be directed to an auxiliary high power and high sensitivity infrared transponder module 26 (see Figure 2) which could be attached to the ceiling of a classroom to provide greater coverage for a large classroom.
  • the whiteboard 10 is connected to the PC 12 via an RS232 serial port or a USB (universal serial bus) port.
  • the PC 12 may alternatively be a semi-intelligent network device controlled by a central server system or it could be a local PC, which is stand alone or networked.
  • Display data from the PC 12 is fed to the projector 14 which can either be freestanding or ceiling mounted.
  • the display, which is normally seen on the monitor 28 of the PC 12 is projected on to the whiteboard 10.
  • the electronic pen 16 assumes the functionality of the mouse of the PC 12 and allows a presenter to control the computer desktop and any applications run by the PC 12. By using suitable software the pen 16 may be able to function as a keyboard.
  • FIG. 4 is a schematic block diagram of the whiteboard 10.
  • the whiteboard 10 includes a grid 52 which comprises two sets of wire loops arranged at right angles to each other.
  • a signal processing unit 54 determines the position of the electronic pen 16 on the whiteboard grid 52.
  • An analogue to digital converter 56 converts signals from the signal processing unit 54 into digital information which is passed to a microprocessor 58 which includes flash memory 60. Output from the microprocessor can optionally be put through an RS232 serial port 62 or a USB port 64.
  • Signals from the microprocessor 58 and the signal processing unit 54 are supplied to a control logic unit which passes signals to a wireless communications expansion port 68 which in turn communicates with one of an infrared transponder module, a 418/433 MHz or 868/870 MHz radio module or a 2.4 GHz spread spectrum module, which ever is selected.
  • FIG. 5 shows a schematic block diagram of one of the remote control devices 18.
  • Each remote control device 18 comprises a microprocessor 36 which is powered by a battery module 32 and power management hardware 34.
  • the battery module 32 has a battery charger circuit 30.
  • the microprocessor 36 includes flash memory 38.
  • the microprocessor 36 may receive input from one or both of a tablet module 40 or a keypad 42.
  • the remote control device 18 may optionally have an LCD display 44.
  • the microprocessor 36 may receive external signals from an infrared transceiver module 46, a 418/433 MHz or 868/870 MHz radio module 48 or a 2.4 GHz spread spectrum module 50.
  • the electronics within the whiteboard 10 process the signals from the whiteboard surface and grid portion 52 (see Figure 6) and thus determine the position of the pen and information corresponding to buttons (not shown) pressed on the electronic pen 16.
  • the infrared transponder 20 uses a standardised infrared technology which is commonly available. This facility allows "wireless" connectivity to third party devices using preexisting software drivers. An alternative would be to use existing radio frequency technology instead of infrared technology.
  • the remote control device 18 communicates with the transponder 20 of the whiteboard 10 using infrared.
  • the remote control device 18 is suitably for use by a teacher to control the display projected onto the whiteboard 10 in a similar manner to a standard computer mouse or the electronic pen 16 mentioned above.
  • the remote control device 18 may alternatively be used by a student who would be allowed to write on the whiteboard 10 or control applications of the PC 12 projected onto the whiteboard 10 without the student having to leave his seat.
  • a teacher would typically have control of the electronic pen l ⁇ .
  • the pen 16 takes precedence over the remote control device 18 in the situation where signals are supplied to control the whiteboard 10 from the remote control device 18 and the electronic pen 16 simultaneously.
  • the display system may comprise a plurality of student remote control units 18.
  • access to control the display on the whiteboard 10 can be controlled by a teacher having a master remote control device 18 or by using the electronic pen 16.
  • the control of precedence of signals from the electronic pen 16 over those from one or more of the remote control devices 18 is effected by suitable communication protocols.
  • the remote control devices 18 may take the form of a keypad unit or a display device or a combination of the two.
  • a teacher may pose questions which are displayed on the whiteboard 10, which are answered by students having one of the remote control devices 18.
  • the whiteboard 10 transmits a request from the transponder 20 to all of the remote control devices 18 in turn.
  • the request includes an address and a type code for a particular device with which it wishes to communicate.
  • the relevant device having the specified address will then transmit a response given by a student (and stored in memory) back to the whiteboard 10.
  • the response data may be positional (ie; to give a location on the whiteboard display), alphanumeric, information on a simple button press on the device (ie; where the student has been asked for a YES/NO answer by pressing one of two buttons) or the response data may be a combination of all three.
  • the transponder 20 on the whiteboard 10 will transmit alphanumeric or graphical information to the device which is to be displayed on the remote control device display.
  • the teacher In a situation where a teacher is setting a student comprehension test, the teacher either requests graphical interaction from a particular student or alternatively, poses a set of questions on the whiteboard 10 and invites alphanumeric responses from the whole class.
  • the whiteboard 10 transmits information to a particular remote control device 18 via the transponder 20, which transponder 20 then waits for a response from the chosen remote control device 18.
  • the transponder 20 of the whiteboard 10 sends out requests for information from each of the individual remote control devices 18 within the room. These requests are made on a sequential basis with only one remote control device 18 replying at a particular time. This is achieved by each remote control device 18 having a specific device type code and a unique address.
  • Figure 7 shows an alternative arrangement of the interactive display in which rather than using the serial port 62 or the USB port 64 with a corresponding wire connection shown in Figure 4 between the whiteboard 10 and the PC 12, instructions are sent between the whiteboard 10 and the PC 12 by means of a transponder on the whiteboard 10 which transmits signals to an infrared or radio receiver unit 70 which is connected to the PC 12.
  • the projector and PC are separate units, but the two could be a single integrated unit.
  • FIG 8 is a schematic block diagram of the receiver unit 70 shown in Figure 7.
  • the receiver unit 70 comprises a microprocessor 72 having flash memory 74. Signals are sent from the microprocessor 72 to the PC via a serial interface 76. Signals are received from the whiteboard 10 via an infrared transceiver module 78 of 418/433 MHz radio module 80 or a 2.4 GHz spread spectrum module 82.
  • the interactive display system disclosed herein uses a whiteboard as a controller for the computer system. This takes advantage of the fact that a whiteboard is the focus of attention in a classroom, making it well suited to host a response system for student feedback devices. The provision of student feedback devices gives a student the ability to control the whiteboard display without leaving his seat. This includes the capability of freehand drawing and annotation. Data from both the whiteboard and from student responses are fed to the host computer down the same serial communications channel, which minimises wiring infrastructures.
  • the top of a typical whiteboard is above head height and as a result is an ideal vehicle for mounting an infrared transceiver.
  • the system gives a teacher the ability to test students for assimilation of material which has just been given to students. This has distinct advantages over previous systems which would require the setting of a test and subsequent marking of the test which introduces undesirable time delays into the teaching process.
  • the provision of the receiver for the student feedback devices on the whiteboard allows the computer which generates the images to be out of the classroom, perhaps in the form of a larger network computer.

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  • Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • General Physics & Mathematics (AREA)
  • Physics & Mathematics (AREA)
  • Educational Administration (AREA)
  • Educational Technology (AREA)
  • Business, Economics & Management (AREA)
  • General Engineering & Computer Science (AREA)
  • Multimedia (AREA)
  • Human Computer Interaction (AREA)
  • Position Input By Displaying (AREA)
  • Controls And Circuits For Display Device (AREA)
  • Electrically Operated Instructional Devices (AREA)
  • Selective Calling Equipment (AREA)
  • Projection Apparatus (AREA)

Abstract

An interactive display system comprises a white board (10) which communicates with a PC (12). A projector (14) receives signals from the PC (12) which are translated into corresponding projection image which is projected on to the white board (10). The image projected on to the white board (10) is the same as that shown on a computer screen (28). By using an electronic pen (16) the position of which can be detected electronically by means of a plurality of wires embedded beneath the surface of the white board (10) and using methods already known in the art, the electronic pen can function in the same way as a computer mouse. The image projected on to the white board (10) may also be manipulated by means of a remote control device (18), which uses infra red communication to transmit signals to a transporder (20) built within the white board (10).

Description

INTERACTIVE DISPLAY SYSTEM
This invention relates to an interactive display system, particularly, but not limited to an interactive display system which includes a remote signalling device.
Existing interactive displays make use of an electronic whiteboard which can sense the position of an electronic pen on the surface of the whiteboard. When a computer display is projected onto the whiteboard and its position calibrated, the electronic pen can be used in the same way as a computer mouse to manipulate objects on the computer display by passing the electronic pen over the surface of the whiteboard. This type of interactive whiteboard enables the teacher to manipulate and annotate material rapidly as a result of audience questions. The use of interactive whiteboards improves teaching productivity and also improves student comprehension. Such whiteboards allow use to be made of good quality digital teaching materials, and allow data to be manipulated and presented using audio visual technologies.
Problems arise with these existing interactive whiteboards in that it is difficult to assess a student's comprehension of the material. Also, the systems require a cumbersome amount of wiring between the various parts of the system.
It is an object of the present invention to address to above mentioned disadvantages.
According to a first aspect of the present invention an interactive display system comprises a display device, an image projector, computing means and at least one remote signalling device, in which the computing means is arranged to supply image information to the projector, which is arranged to project said image information onto the display device; and in which the or each remote signalling device is operable to transmit signals to a receiver portion of the display device, the display device being arranged to supply the signals to the computing means, said signals being stored by the computing means for display. The display means is preferably a communications hub of the display system arranged to receive control signals from a pointing device and/or a remote control device and transmit those signals to the computing means in order to control the image projected onto the display means. In preferred embodiments the display means uses a single communications link between it and the computing means which is capable of conveying signals both from the pointing device and the or each remote signalling device, to enable a most efficient transfer of data. Preferably this single link is a wireless connection such as infra-red means or radio means.
The or each remote signalling device, may be a remote control device which is operable to transmit control signals to a receiver portion of the display device, which control signals are supplied to the computing means and are operable to control the computing means and thus image information supplied to the projector.
The display device may include a wireless transmitter portion, preferably integral with the receiver portion.
The display device may include position indication means for indicating the position of a pointing device relative to a surface of the display device.
The interactive display system may be operable to calibrate the location of an image projected onto the display device relative to the display device. The pointing device may be operable to effect the calibration.
The pointing device may be operable to induce image control signals in the position indication means, which image control signals are operable to control the computing means and thus image information projected onto the display means. Alternatively, pressure exerted by the pointing device on the display means may induce control signals in the position indication means. A further alternative is that the pointing device may include a laser, the position of light from which on the display means is used to cause control signals in the position indication means to be generated.
The pointing device may be arranged to take precedence over the or each remote signalling device, with signals from the or each remote signalling device being ignored if signals from the pointing device are being received.
The pointing device may be operable to selectively enable the or each remote signalling device, preferably by signals supplied via the display means.
The receiver portion of the display device may be located in an upper part thereof, preferably on a front face thereof.
The display device may include an output portion arranged to transmit signals from both the receiver portion and the position indication means to the computing means. The output portion may transmit the signals by wire link or by wireless link. The output portion may be operable to pass signals by wire to a separate wireless transmitter for transmission. Said wireless transmitter portion may be mounted for ease of transmission to the computing means, on a ceiling for instance. The wireless transmitter may also be a wireless receiver, to receive signals from the or each remote signalling device.
The computing means may be a standalone computer, such as a personal computer or may be a networked computer or networked computer server.
The or each remote signalling device may be operable to transmit signals to the receiver portion only in response to a request signal from the display means, preferably from the transmitter portion. Where a plurality of remote signalling devices are provided, the display means may request information from each remote signalling device in turn, by polling. For instance, by interrogating each remote signalling device in turn to gather data from them sequentially. It will be understood however that other arrangements may be utilised and that the system may allow for simultaneous reception of data from more than one such remote signalling device.
The or each remote control device may be operable to control the computing means in substantially the same manner as a keyboard and mouse combination.
The system preferably comprises one master control device, which may be a remote control device or a pointing device, and a plurality of subsidiary remote signalling devices, in which case the master control device is preferably operable to control display means and computer to selectively activate and deactivate the subsidiary signalling devices.
The subsidiary remote signalling devices may be response devices for responding to information displayed on the display means by a person controlling the master control device.
According to another aspect of the invention an interactive display system comprises a display device, computing means and at least one remote signalling device, in which the computing means is arranged to supply image information to the display device; and in which the or each remote signalling device is operable to transmit signals to a receiver portion of the display device, the display device being arranged to supply the signals to the computing means, said signals being stored by the computing means for display.
According to another aspect of the present invention a method of operating an interactive display system comprises projecting an image of a computer display of a computer onto a display device, receiving signals at a receiver portion of the display device, which signals are transmitted from at least one remote signalling device, and transmitting those signals to the computer.
The method may include the signals from the or each remote signalling device being independent of the location of the remote signalling device relative to the display means, for instance the signals from the remote signalling device may contain non-position related data.
The signals from the or each remote signalling device are preferably transmitted in response to information displayed on the display device.
According to a further aspect of the present invention an interactive display device comprises a receiver portion for receiving signals from a remote signalling device, the display device being operable to supply the received signals to a computing means and suitable for displaying an image from a computing means projected onto said display device.
The display device preferably forms a communications hub for an interactive display system.
The invention extends to a remote signalling device for use with the interactive display system described in the first aspect.
All of the features described herein may be combined with any of the above aspects, in any combination.
Specific embodiments of the present invention will now be described by way of example and with reference to the accompanying drawings, in which: Figure 1 is a schematic view from above of an interactive display system installed in a classroom;
Figure 2 is a schematic side view of the layout in Figure 1;
Figure 3 is a schematic front view of an interactive display device;
Figure 4 is a schematic block diagram of the parts of interactive display device;
Figure 5 is a schematic block diagram of the parts of a feedback device for use with the interactive display system;
Figure 6 is a schematic diagram of the interconnections between the various parts of an interactive display system installation;
Figure 7 is a schematic view from above of a classroom layout for an alternative embodiment of interactive display system; and
Figure 8 is a schematic block diagram of the parts of a remote receiver of a computer/projector portion of the interactive display system.
Referring to Figure 2, an interactive display system comprises a whiteboard 10 which communicates with a PC 12. A projector 14 receives signals from the PC 12 which are translated in to a corresponding projection image which is projected on to the whiteboard 10.
The image projected on to the whiteboard 10 is the same as that shown on a computer screen 28. By using an electronic pen 16, the position of which can be detected electronically by means of a plurality of wires embedded beneath the surface of the whiteboard 10, and using methods already known in the art, the electronic pen 16 can function in the same way as a computer mouse. Alternatively, the whiteboard may be of the resistive type, in which the presence of a pointing device is detected by pressure causing two layers to contact each other at a particular location, which location is then detected. A further alternative is the use of a laser pen. The position on the whiteboard of a light spot from the pen is calculated by detecting a reflection of the laser light from the whiteboard back to the laser pen by triangulation.
The image projected on to the whiteboard 10 may also be manipulated by means of a remote control device 18, which uses infrared communication to transmit signals to a transponder 20 built into the whiteboard 10. The signals received by the transponder 20 are then relayed to the PC 12, either by a wire link or a wireless link.
Figure 6 shows a typical schematic of the connections between various parts of the interactive display system.
The whiteboard 10 comprises a grid portion 52 which comprises two sets of wire loops arranged orthogonally to each other. An electric signal from the pen 16 induces a current in the wire loops which can be used to determine the position of the pen 16. The infrared transponder 20 is located behind an optical window 24 on an upper part of the front of the whiteboard 10 which allows two way infrared communications. Also, a connector (not shown) is provided on the rear of the whiteboard 10, which connector allows signals to and from the infrared transponder 20 of the whiteboard to be directed to an auxiliary high power and high sensitivity infrared transponder module 26 (see Figure 2) which could be attached to the ceiling of a classroom to provide greater coverage for a large classroom.
The whiteboard 10 is connected to the PC 12 via an RS232 serial port or a USB (universal serial bus) port. The PC 12 may alternatively be a semi-intelligent network device controlled by a central server system or it could be a local PC, which is stand alone or networked.
Display data from the PC 12 is fed to the projector 14 which can either be freestanding or ceiling mounted. The display, which is normally seen on the monitor 28 of the PC 12 is projected on to the whiteboard 10.
The electronic pen 16 assumes the functionality of the mouse of the PC 12 and allows a presenter to control the computer desktop and any applications run by the PC 12. By using suitable software the pen 16 may be able to function as a keyboard.
Figure 4 is a schematic block diagram of the whiteboard 10. As described above, the whiteboard 10 includes a grid 52 which comprises two sets of wire loops arranged at right angles to each other. A signal processing unit 54 determines the position of the electronic pen 16 on the whiteboard grid 52. An analogue to digital converter 56 converts signals from the signal processing unit 54 into digital information which is passed to a microprocessor 58 which includes flash memory 60. Output from the microprocessor can optionally be put through an RS232 serial port 62 or a USB port 64. Signals from the microprocessor 58 and the signal processing unit 54 are supplied to a control logic unit which passes signals to a wireless communications expansion port 68 which in turn communicates with one of an infrared transponder module, a 418/433 MHz or 868/870 MHz radio module or a 2.4 GHz spread spectrum module, which ever is selected.
Figure 5 shows a schematic block diagram of one of the remote control devices 18. The blocks shown in dashed lines are optional. Each remote control device 18 comprises a microprocessor 36 which is powered by a battery module 32 and power management hardware 34. The battery module 32 has a battery charger circuit 30. The microprocessor 36 includes flash memory 38. The microprocessor 36 may receive input from one or both of a tablet module 40 or a keypad 42. The remote control device 18 may optionally have an LCD display 44. The microprocessor 36 may receive external signals from an infrared transceiver module 46, a 418/433 MHz or 868/870 MHz radio module 48 or a 2.4 GHz spread spectrum module 50.
The electronics within the whiteboard 10 process the signals from the whiteboard surface and grid portion 52 (see Figure 6) and thus determine the position of the pen and information corresponding to buttons (not shown) pressed on the electronic pen 16. The infrared transponder 20 uses a standardised infrared technology which is commonly available. This facility allows "wireless" connectivity to third party devices using preexisting software drivers. An alternative would be to use existing radio frequency technology instead of infrared technology.
The remote control device 18 communicates with the transponder 20 of the whiteboard 10 using infrared. The remote control device 18 is suitably for use by a teacher to control the display projected onto the whiteboard 10 in a similar manner to a standard computer mouse or the electronic pen 16 mentioned above. The remote control device 18 may alternatively be used by a student who would be allowed to write on the whiteboard 10 or control applications of the PC 12 projected onto the whiteboard 10 without the student having to leave his seat. When the remote control device 18 is arranged for use by a student, a teacher would typically have control of the electronic pen lό.The pen 16 takes precedence over the remote control device 18 in the situation where signals are supplied to control the whiteboard 10 from the remote control device 18 and the electronic pen 16 simultaneously.
In addition to or as a replacement for the remote control device 18 the display system may comprise a plurality of student remote control units 18. In this case access to control the display on the whiteboard 10 can be controlled by a teacher having a master remote control device 18 or by using the electronic pen 16. The control of precedence of signals from the electronic pen 16 over those from one or more of the remote control devices 18 is effected by suitable communication protocols.
The remote control devices 18 may take the form of a keypad unit or a display device or a combination of the two.
When a plurality of remote control devices 18 are used a teacher may pose questions which are displayed on the whiteboard 10, which are answered by students having one of the remote control devices 18. In order to obtain the students' answers, the whiteboard 10 transmits a request from the transponder 20 to all of the remote control devices 18 in turn. The request includes an address and a type code for a particular device with which it wishes to communicate. The relevant device having the specified address will then transmit a response given by a student (and stored in memory) back to the whiteboard 10. Depending on the type of control device 18 the response data may be positional (ie; to give a location on the whiteboard display), alphanumeric, information on a simple button press on the device (ie; where the student has been asked for a YES/NO answer by pressing one of two buttons) or the response data may be a combination of all three.
For remote control devices 18 which include a display, the transponder 20 on the whiteboard 10 will transmit alphanumeric or graphical information to the device which is to be displayed on the remote control device display.
In a situation where a teacher is setting a student comprehension test, the teacher either requests graphical interaction from a particular student or alternatively, poses a set of questions on the whiteboard 10 and invites alphanumeric responses from the whole class. In the former case, the whiteboard 10 transmits information to a particular remote control device 18 via the transponder 20, which transponder 20 then waits for a response from the chosen remote control device 18. In the latter case the transponder 20 of the whiteboard 10 sends out requests for information from each of the individual remote control devices 18 within the room. These requests are made on a sequential basis with only one remote control device 18 replying at a particular time. This is achieved by each remote control device 18 having a specific device type code and a unique address.
Figure 7 shows an alternative arrangement of the interactive display in which rather than using the serial port 62 or the USB port 64 with a corresponding wire connection shown in Figure 4 between the whiteboard 10 and the PC 12, instructions are sent between the whiteboard 10 and the PC 12 by means of a transponder on the whiteboard 10 which transmits signals to an infrared or radio receiver unit 70 which is connected to the PC 12. In the example shown in Figure 7 the projector and PC are separate units, but the two could be a single integrated unit.
Figure 8 is a schematic block diagram of the receiver unit 70 shown in Figure 7. The receiver unit 70 comprises a microprocessor 72 having flash memory 74. Signals are sent from the microprocessor 72 to the PC via a serial interface 76. Signals are received from the whiteboard 10 via an infrared transceiver module 78 of 418/433 MHz radio module 80 or a 2.4 GHz spread spectrum module 82.
The interactive display system disclosed herein uses a whiteboard as a controller for the computer system. This takes advantage of the fact that a whiteboard is the focus of attention in a classroom, making it well suited to host a response system for student feedback devices. The provision of student feedback devices gives a student the ability to control the whiteboard display without leaving his seat. This includes the capability of freehand drawing and annotation. Data from both the whiteboard and from student responses are fed to the host computer down the same serial communications channel, which minimises wiring infrastructures.
The top of a typical whiteboard is above head height and as a result is an ideal vehicle for mounting an infrared transceiver. The system gives a teacher the ability to test students for assimilation of material which has just been given to students. This has distinct advantages over previous systems which would require the setting of a test and subsequent marking of the test which introduces undesirable time delays into the teaching process.
The provision of the receiver for the student feedback devices on the whiteboard allows the computer which generates the images to be out of the classroom, perhaps in the form of a larger network computer.
The reader's attention is directed to all papers and documents which are filed concurrently with or previous to this specification in connection with this application and which are open to public inspection with this specification, and the contents of all such papers and documents are incorporated herein by reference.
All of the features disclosed in this specification (including any accompanying claims, abstract and drawings), and/or all of the steps of any method or process so disclosed, may be combined in any combination, except combinations where at least some of such features and/or steps are mutually exclusive.
Each feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise. Thus, unless expressly stated otherwise, each feature disclosed is one example only of a generic series of equivalent or similar features.
The invention is not restricted to the details of the foregoing embodiment(s). The invention extends to any novel one, or any novel combination, of the features disclosed in this specification (including any accompanying claims, abstract and drawings), or to any novel one, or any novel combination, of the steps of any method or process so disclosed.

Claims

CLAIMS:
An interactive display system comprises a display device, computing means and at least one remote signalling device, in which the computing means is arranged to supply image information to the display device; and in which the or each remote signalling device is operable to transmit signals to a receiver portion of the display device, the display device being arranged to supply the signals to the computing means, said signals being stored by the computing means for display.
2. An interactive display system as claimed in claim 1, in which the display means is a communications hub of the display system arranged to receive control signals from a pointing device and/or a remote control device and arranged to transmit those signals to the computing means in order to control an image on the display means.
3. An interactive display system as claimed in either claim 1 or claim 2, in which the display means uses a single communications link between it and the computing means, which link is capable of conveying signals both from the pointing device and the or each remote signalling device, to enable a most efficient transfer of data.
4. An interactive display system as claimed in claim 3, in which the single link is a wireless connection such as infra red means or radio means.
5. An interactive display system as claimed in any preceding claim, in which the or each remote signalling device is a remote controll device which is operable to transmit control signals to a receiver portion of the display device, which control signals are supplied to the computing means and are operable to control the computing means and thus image information supplied to the display means.
6. An interactive display system as claimed in any preceding claim, in which the display device includes position indication means for indicating the position of a pointing device relative to a surface of the display device.
7. An interactive display system as claimed in any preceding claim, which is operable to calibrate the location of an image on the display device relative to the display device.
8. An interactive display system as claimed in any preceding claim, in which the pointing device is operable to induce image control signals in the position indication means, which image control signals are operable to control the computing means and thus image information is displayed on the display means.
9. An interactive display system as claimed in any preceding claim, in which the pointing device is arranged to take precedence over the or each remote signalling device.
10. An interactive display system as claimed in any preceding claim, in which the pointing is operable to selectively enable the or each remote signalling device.
11. An interactive display system as claimed in any preceding claim, in which the display device includes an output portion arranged to transmit signals from both the receiver portion and the position indication means to the computing means.
12. An interactive display system as claimed in any preceding claim, in which the or each remote signalling device is operable to transmit signals to the receiver portion only in response to a request signal from the display means.
13. An interactive display system as claimed in any preceding claim, in which where a plurality of remote signalling devices are provided, the display means requests information from each remote signalling device in turn, by polling.
14. An interactive display system as claimed in any preceding claim, in which the or each remote control device is operable to control the computing means in substantially the same manner as a key board and mouse combination
15. An interactive display system as claimed in any preceding claim, in which the system comprises one master control device which is a remote control device or a pointing device, and a plurality of subsidiary remote signalling devices.
16. A method of operating an interactive display system comprises projecting an image of a computer display of a computer onto a display device, receiving signals at a receiver portion of the display device, which signals are transmitted from at least one remote signalling device, and transmitting those signals to the computer, to thereby manipulate the image projected onto the display device.
17. A method as claimed in claim 16, which includes the signals from the or each remote signalling device being independent of the location of the remote signalling device relative to the display means.
18. A method as claimed in either claim 16 or claim 17, in which the signals from the or each remote signalling device are transmitted in response to information displayed on the display device.
19. An interactive display device comprises a receiver portion for receiving signals from a remote signalling device, the display device being operable to supply the received signals to a computing means and being suitable for displaying an image from a computing means received by said display device.
20. An interactive display device as claimed in claim 19, which preferably forms a communication hub for an interactive display system.
21. A remote signalling device for use with the interactive display system according to any one of claims 1 to 15.
PCT/GB2000/000012 1999-01-13 2000-01-05 Interactive display system WO2000042494A1 (en)

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Application Number Priority Date Filing Date Title
CA2355649A CA2355649C (en) 1999-01-13 2000-01-05 Display system with interactive features
US09/889,137 US7584432B1 (en) 1999-01-13 2000-01-05 Interactive display system
DE60001631T DE60001631T2 (en) 1999-01-13 2000-01-05 INTERACTIVE DISPLAY SYSTEM
JP2000594006A JP2002535704A (en) 1999-01-13 2000-01-05 Interactive display system
EP00900067A EP1141815B1 (en) 1999-01-13 2000-01-05 Interactive display system
AU18834/00A AU1883400A (en) 1999-01-13 2000-01-05 Interactive display system
US12/539,012 US20090295723A1 (en) 1999-01-13 2009-08-11 Interactive display system

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
GB9900555 1999-01-13
GB9900555.5 1999-01-13

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WO2000042494A1 true WO2000042494A1 (en) 2000-07-20

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US (2) US7584432B1 (en)
EP (1) EP1141815B1 (en)
JP (1) JP2002535704A (en)
AU (1) AU1883400A (en)
CA (1) CA2355649C (en)
DE (1) DE60001631T2 (en)
WO (1) WO2000042494A1 (en)

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EP1141815A1 (en) 2001-10-10
US20090295723A1 (en) 2009-12-03
DE60001631T2 (en) 2003-12-04
CA2355649A1 (en) 2000-07-20
EP1141815B1 (en) 2003-03-12
JP2002535704A (en) 2002-10-22
DE60001631D1 (en) 2003-04-17
US7584432B1 (en) 2009-09-01
AU1883400A (en) 2000-08-01
CA2355649C (en) 2012-10-23

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