VIDEOCAMERA WITH INTEGRATED ILLUMINATION SYSTEM FOR A

VIDEOPHONE

TECHNICAL FIELD

The present invention relates to the field of portable electronic devices. More particularly, the present invention relates to a device and method for depicting an object in darkness when using a portable electronic device.

BACKGROUND OF THE INVENTION

A portable electronic device may comprise a camera. Such portable electronic device comprising a camera may be able of performing a plurality of functions. For example, a portable electronic device comprising a camera may be used for taking pictures or for recording movies, thus substituting e.g. a digital still camera and/or a digital video camera.

A portable electronic device comprising a camera may also be adapted to communicate in a wireless communication network, such as a cellular mobile telephone with an inbuilt camera or even several cameras, e.g. two cameras, of which one may be used for video telephony and one for normal image capturing.

Many users of such a portable electronic device may be interested in using the device for video telephony or photographing in various lighting conditions e.g. unfavourable lighting conditions at night time, in rain, dust and fog; or indoors, in shady bars, smoke filled clubs, obscure entertainment establishments etc.

Video telephony in darkness

A portable electronic device comprising a camera, such as a cellular mobile telephone with an inbuilt camera may be used for video telephony. There is however a problem to make a video telephony call if the calling person is situated in unfavourable lighting conditions e.g. at night time. Video telephony may be valuable in particular for hearing- impaired or deaf people, who otherwise may not be able to perform a telephone call at all. A solution to that problem may be to provide the portable electronic device with a photo light, illuminating the calling person.

However such photo light may dazzle the person performing the illuminated video telephony call. He/ she may experience the photo light as very disturbing and even painful

for the eyes, which may lead to face distortion, ticks and may release a stressed, tensed and spastic facial behaviour in general.

A user of a portable electronic device may also want to initiate a video telephony connection or take a photo in a gloomy surrounding where photo light is not allowed e.g. in a museum, an illicit bar etc. He/ she may also want to make a documentation of vandalism, theft, or altercations in a dark environment without revealing himself/ herself, as would be the result if a photo light, flash or lamp was used.

Photographic function in darkness

In order to enhance picture quality when using the photographic function and enable use of e.g. the described camera features in bad light or darkness, an electronic flash unit, or an electronic photo light unit may be comprised within the portable electronic device.

However, the user of a portable electronic device may want to take a photo in a badly lit surrounding where it is inappropriate to use a photo light, as the photo light may disturb or temporarily blind or dazzle the photo object. This may occur when taking a photo of e.g. a wild animal, a young baby, a person driving a vehicle or an actor on stage.

The problems connected with using a photo light may be avoided simply by not using the photo light when taking pictures in darkness. However, such non use of a photo light when taking pictures in bad light conditions usually result in dark and grainy images, bringing a multitude of disappointment to the user.

Therefore, it is a problem with portable electronic devices comprising a camera to make them able of taking pictures or movies in bad light conditions in a way that satisfies the requirements of a user.

Observing in darkness It may also be a problem to make an observation of something that occurs in darkness, without using a flashlight. In some situations the usage of a flashlight may be inappropriate. Such situation may occur e.g. when a user is trying to find her/his way to the seat in a dark cinema.

Thus it is a problem to use a portable electronic device for photographing, making an observation or making a video telephony call discretely, in a badly lit environment.

SUMMARY OF THE INVENTION The present invention aims at obviating or reducing at least some of the above mentioned problems and provides an improved portable electronic device.

A first aspect of the present invention is directed towards a portable electronic device comprising an image capturing unit adapted to capture at least one image of an object. Also, the portable electronic device comprises at least one light emitting element adapted to emit light with a wavelength outside the visible spectrum. Further, the image capturing unit comprised within the portable electronic device is adapted to capture an image of the object illuminated with light with a wavelength outside the visible spectrum.

A second aspect of the present invention includes the features of the first aspect, wherein the portable electronic device comprises a control unit, which is adapted to activate the at least one light emitting element when the portable electronic device is set in an image capturing mode.

A third aspect of the present invention includes the features of the second aspect, wherein the portable electronic device comprises a communication unit adapted to establish a video telephony connection with a recipient of a video telephony call. Also, the control unit is adapted to activate the at least one light emitting element continuously, as long as the portable electronic device is set in an image capturing mode.

A fourth aspect of the present invention includes the features of the second aspect, wherein the portable electronic device comprises a light sensor, adapted to measure light related data indicating the strength of the incoming light. Also, the portable electronic device comprises at least one light emitting element adapted to receive a control signal from the control unit. Further, the portable electronic device comprises a control unit adapted to receive light related data indicating the strength of the incoming light and comparing it with a predetermined threshold value. The control unit is also adapted to determine when to activate and when to deactivate the at least one light emitting element based on said light related data, and to send control information to the at least one light emitting element for activating or deactivating the at least one light emitting element.

A fifth aspect of the present invention includes the features of the fourth aspect, wherein the control unit is adapted to determine the strength of the light that the at least one light emitting element has to emit in order to enlighten an object based on said light related data. The control unit is also adapted to send control information to the at least one light emitting element for adjusting the strength of the light emitted from the at least one light emitting element.

A sixth aspect of the present invention includes the features of the first aspect, wherein the portable electronic device comprises a view finder, adapted to display the object illuminated by the at least one light emitting element.

A seventh aspect of the present invention includes the features of the first aspect, wherein the portable electronic device comprises a lens situated in front of at least one of the at least one light emitting elements.

An eighth aspect of the present invention includes the features of the seventh aspect wherein the lens is adapted to focus the emitted infra red light on a distance of approximately 0.2-0.5 metres.

A ninth aspect of the present invention includes the features of the first aspect wherein at least one light emitting element is adapted to emit infra red light, with a wavelength between 750 nm and 1 mm.

A tenth aspect of the present invention includes the features of the first aspect wherein at least one light emitting element is adapted to emit ultra violet light with a wavelength between 10 nm and 400 nm.

An eleventh aspect of the present invention includes the features of the first aspect wherein the portable electronic device is represented by a portable communication device such as a mobile cellular radiotelephone.

A twelfth aspect of the present invention is directed towards a method for visualisation of an object in darkness by using a portable electronic device. The portable electronic device comprises an image capturing unit and at least one light emitting element. The method for

visualisation of an object in darkness further comprises activating an image capturing function and receiving a darkness indication. Further, the method comprise emitting light with a wavelength outside the visible spectrum, such that the intended photo object is illuminated with light with a wavelength outside the visible spectrum, if a darkness indication is received and an image capturing function is activated.

A thirteenth aspect of the present invention includes the features of the twelfth aspect, wherein the method for visualisation of an object in darkness further comprises measuring light related data, indicating the strength of the incoming light and comparing the measured light related data with a predetermined threshold value. Based on this comparison, the method further comprises determining when to activate and when to deactivate the at least one light emitting element based on said light related data. Said method also comprises generating control information, for activating or deactivating the at least one light emitting element and sending the generated control information to the at least one light emitting element for activating the at least one light emitting element if the measured light related data is lower than a certain predetermined threshold value. Alternatively, the method comprises deactivating the at least one light emitting element if the measured light related data is higher than a certain predetermined threshold value and the image capturing unit is still activated.

A fourteenth aspect of the present invention is directed towards a computer program product comprising computer-readable program code embodied on a computer-readable medium, the computer readable program code being configured to carry out the method according to the twelfth aspect of the present invention.

A fifteenth aspect of the present invention is directed towards an accessory to a portable electronic device which comprises an image capturing unit, wherein the accessory comprises a connection unit adapted to send and/or receive control signals from the portable electronic device. Further, the accessory comprises at least one light emitting element adapted to emit light with a wavelength outside the visible spectrum if a darkness indication is received and the portable electronic device is set in an image capture mode.

A sixteenth aspect of the present invention includes the features of the fifteenth aspect, wherein the accessory comprises a light sensor, adapted to measure light related data indicating the strength of the incoming light. The light sensor is adapted to send said light

related data to a control unit. The accessory also comprises at least one light emitting element adapted to receive a control signal from the control unit. The control unit is adapted to determine when to activate and when to deactivate the at least one light emitting element based on said light related data, and to send control information to the at least one light emitting element for activating or deactivating the at least one light emitting element.

An seventeenth aspect of the present invention includes the features of the fifteenth aspect, wherein the accessory comprises a lens situated in front of at least one of the at least one light emitting element.

An eighteenth aspect of the present invention includes the features of the seventeenth aspect, wherein the lens is adapted to focus the emitted infra red light on a distance of approximately 0.2-0.5 metres.

A nineteenth aspect of the present invention includes the features of the fifteenth aspect, wherein at least one light emitting element (410) is adapted to emit infra red light (120), with a wavelength between 750 nm and 1 mm.

A twentieth aspect of the present invention includes the features of the fifteenth aspect, wherein at least one light emitting element (410) is adapted to emit ultra violet light (120) with a wavelength between 10 nm and 400 nm.

A twenty-first aspect of the present invention includes the features of the fifteenth aspect, wherein the accessory is adapted to be attached to a portable communication device such as a mobile cellular radiotelephone.

Since the light emitting elements comprised within the portable electronic device or the accessory to a portable electronic device according to the invention, are adapted to emit light with a wavelength outside the visible spectrum, such as infra red light and/ or ultra violet light, the image detection unit/units within the portable electronic device are adapted to detect and interpret reflections from infra red and/ or ultra violet light and display an image to a user, an object could be viewed, photographed, filmed or video telephoned in darkness, without emitting visible light. Thus it is possible to make a video telephone call in a dark surrounding without harassing the users eyes with a disturbing sharp white light.

An advantage of the present device, method, computer program and accessory is that a photo or video sequence could be taken in a badly lit surrounding where it is inappropriate to use a photo light.

An advantage of the present device, method, computer program and accessory is that an observation of something that occurs in darkness could be made without using a flashlight, which might be inappropriate or disturbing for other people in some situations and/or without destroying the night vision of a user.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will now be described more in detail in relation to the enclosed drawings, in which:

Figure 1 is a schematic illustration over an embodiment of a portable electronic device comprising a light emitting element.

Figure 2 schematically depicts an embodiment of a portable electronic device comprising an image capturing unit and a light emitting element.

Figure 3 is a flow chart illustrating a method in a portable electronic device or in an accessory for illumination of an object with light with a wavelength outside the visible spectrum.

Figure 4 is schematically illustrating an embodiment of a system with a portable electronic device and an accessory, arranged to be attached to the portable electronic device and to illuminate an object with light with a wavelength outside the visible spectrum.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

The invention is defined as a portable electronic device, a method, a computer program and an accessory which may be put into practice in the embodiments described below.

Figure 1 is a schematic illustration over an embodiment of a portable electronic device 100 in unfavourable lighting conditions, such as darkness.

The portable electronic device 100 as herein described may in an embodiment comprise a mobile station such as a mobile cellular radiotelephone. The portable electronic device

100 may however in an embodiment comprise a Digital Enhanced Cordless

Telecommunications (DECT) telephone, a Personal Digital Assistant (PDA), a laptop, a computer, a digital still camera, a digital video camera or any other kind of portable electronic device, such as a notebook computer, walkie-talkie, hunting radio, baby monitor etc. The portable electronic device 100 may in one embodiment be a foldable portable electronic device such as a clam shell or foldable knife type cellular phone e.g. Sony

Ericsson W300L

The portable electronic device 100 comprises an image capturing unit and a light emitting element 110. According to some embodiments, the portable electronic device 100 may comprise a plurality of light emitting elements 110, e.g. between 2 and 20 light emitting elements 110. According to some embodiments, the portable electronic device 100 may comprise more than 20 light emitting elements 110. The portable electronic device 100 may in some embodiments comprise a plurality of image capturing units, e.g. two image capturing units.

The light emitting element 110 may be a Light-Emitting Diode (LED), an incandescent light bulb, an electric lamp, an arc lamp, a fluorescent light, a high-intensity discharge lamp, an xenon light, a halogen lamp, flashes or any other convenient source capable of emitting photons, thus creating an artificial light out of the visible spectrum. The light emitting element 110 may comprise light emitting elements 110 of the same type or of different types, e.g. LEDs emitting light waves with different wavelength. The light emitting element 110 is in particular adapted to emit light 120 with a wavelength outside the visible spectrum. Light with a wavelength outside of the visible spectrum may be infra red light or ultra violet light. In some embodiments, the light emitting element 110 is adapted to emit infra red light 120 with a wavelength between approximately 750 nm and 1 mm. In some embodiments, the light emitting element 110 is adapted to emit ultra violet light 120 with a wavelength between approximately 10 nm and 400 nm. Different light emitting elements 110 comprised within the portable electronic device 100 may be adapted to emit light 120 with a wavelength outside of the visible spectrum with different wavelength, such as infra

red light and ultra violet light. Further, according to some embodiments, the portable electronic device 100 may comprise some light emitting elements 110 adapted to emit infra red light and some light emitting elements 110 adapted to emit ultra violet light and/or light within the visible spectrum. According to some embodiments, the portable electronic device 100 may comprise light emitting elements 110 adapted to adjust the wave length of the emitted light, such that the user may switch between letting the light emitting elements 110 emit infra red light and ultra violet light and/or light within the visible spectrum.

An advantage of using LED as light emitting elements 110 for emitting light 120 with a wavelength outside the visible spectrum may be that they are cheap, consume a modest amount of power, they are robust in comparison with at least some other light emitting elements 110. Also, LEDs in general have a relatively long burning time. The fact that a LED flash operates from a low voltage supply is also important, since this may reduce the space required for implementation.

Light 120 with a wavelength outside the visible spectrum, such as infra red light or ultra violet light is in reality invisible for the human eye, but in order to facilitate the understanding of the invention, light beams 120 are schematically depicted in Figure 1.

The portable electronic device 100 may be directed towards an arbitrary object 130 or a plurality of disparate objects. The light 120 with a wavelength outside the visible spectrum is reflected against the surface of the object 130, which reflections may be detected by the image capturing unit comprised within the portable electronic device 100.

The image capturing unit according to the invented solution is, unlike the human eye, adapted to detect objects 130 illuminated only with infra red light or ultra violet light. The image capturing unit may therefore detect the received infra red and/ or ultra violet light reflections of the object 130 and interpret the reflections such that a photographic image may be generated by the image capturing unit, depicting the object 130. Thus a photographic image of the object 130, visible for a human eye, may be created and displayed for a user.

The image capturing unit according to the invented solution may also detect and interpret the reflections of the object 130 and send signals to a view finder 140 comprised within

the portable electronic device 100 such that the view finder 140 may display an image of the object 130, which image is visible for a human eye.

The view finder 140 may be a charge-coupled device (CCD), a CMOS sensor, an active pixel sensor or similar.

Figure 2 schematically depicts an embodiment of a portable electronic device 100 comprising an image capturing unit 240 and a plurality of light emitting elements 110. The light emitting elements 110 are adapted to emit light with a wavelength outside the visible spectrum 120, such as infra red light and/ or ultra violet light. The image capturing unit 240 is adapted to capture an image of the object 130 illuminated with infra red light and/ or ultra violet light.

The image capturing unit 240 may in some embodiments be adapted to capture a continuous flow of images, represented by e.g. a video, film, movie etc. The control unit 210 may in some embodiments be adapted to activate the at least one light emitting element 110 continuously, as long as the portable electronic device 100 is set in an image capturing mode.

The portable electronic device 100 may according to some embodiments comprise a plurality of image capturing units 240. In some embodiments, the portable electronic device 100 may comprise a first image capturing unit 240 placed on a first side of the portable electronic device 100, and a second image capturing unit 240 placed on a second side of the portable electronic device 100. The first and the second sides of the portable electronic device 100 may be situated on opposite sides of each other, according to some embodiments. Further, the first image capturing unit 240 may be adapted to be used for video telephony and the second image capturing unit 240 may be adapted for photography and/or video recording.

The portable electronic device 100 further comprises a control unit 210, which may be adapted to activate the light emitting elements 110 when the portable electronic device 100 is set in an image capturing mode. Thus the light emitting element 1 10 may be adapted to receive control signals from the control unit 210.

The control unit 210 may be a Central Processing Unit (CPU), a microprocessor, a Peripheral Interface Controller (PIC) microcontroller or any other appropriate device adapted to interpret computer program instructions and processes data.

The light emitting elements 110 may however in some embodiments be activated when the user makes a darkness indication e.g. by pressing a darkness indication button. The light emitting elements 1 10 may in some embodiments be activated when the user makes a darkness indication e.g. by selecting a black light mode choice on the view finder 140.

The portable electronic device 100 may according to some embodiments comprise a light sensor 230, adapted to measure light related data indicating the strength of the incoming light. Further, the control unit 210 may be adapted to receive light related data indicating the strength of the incoming light and comparing it with a predetermined threshold value. The predetermined threshold value may be previously stored in a memory unit 220, comprised within the portable electronic device 100. The predetermined threshold value represents a value when the image capturing device 240 needs extra light in order to properly capture an image of an object 130.

The memory unit 220 may be a primary storage memory unit such as a processor register, a cache memory, a Random Access Memory (RAM) or similar. The memory unit 220 may however in some embodiments be a secondary memory unit such as a Read Only Memory (ROM), Electrically Erasable Programmable Read-Only Memory (EEPROM), programmable read-only memory (PROM) or erasable programmable readonly memory (EPROM) or a hard disk drive. The memory unit 220 may however in some embodiments be an off-line storage memory unit, a flash memory, a USB memory or a memory card. The memory unit 220 may in some embodiments be a Network-attached storage (NAS) or in fact any other appropriate medium such as a disk or a tape that can hold machine readable data.

The light emitting element 110 may further be adapted to receive a control signal from the control unit 210, according to some embodiments.

The control unit 210 may according to some embodiments be adapted to determine when to activate and when to deactivate the at least one light emitting element 110 based on

the light related data. Also, the control unit 210 may send control information to the light emitting element 110 for activating or deactivating the light emitting element 110.

Thus, when the control unit 210 send an activation control signal, the light emitting 5 element 110 may emit infra red light and/ or ultra violet light. Also, the opposite situation may occur. When the control unit 210 send a deactivation control signal, the light emitting element 110 may terminate emitting infra red light and/ or ultra violet light.

An advantage with these lastly described embodiments is that the light emitting elements 10 110 may be activated automatically, without requiring further effort from the user.

Further, the control unit 210 may, in some embodiments, be adapted to determine the strength of the light that the at least one light emitting element 110 has to emit in order to enlighten the object 130 based on said light related data. The control unit 210 may 15 according to these embodiments also send control information to the at least one light emitting element 1 10 for adjusting the strength of the light 120 emitted from the at least one light emitting element 110.

An advantage with these embodiments is that energy may be saved so that the battery of 20 the portable electronic device 100 may be reloaded less frequently.

The portable electronic device 100 may according to some embodiments comprise a communication unit 200 adapted to establish a video telephony connection with a recipient of a video telephony call. The communication unit 200 may be adapted to

25 communicate the captured mages within a wireless communication system to a recipient. The communication unit 200 may be adapted to communicate e.g. in Code Divisional Multiple Access (CDMA), Wideband Code Division Multiple Access (WCDMA), cdma2000, High Speed Packet Data Access (HSPA), High Speed Downlink Packet Data Access (HSDPA) Fraction High Speed Downlink Packet Data Access (F-HSDPA), High Speed

30 Uplink Packet Data Access (HSUPA), Universal Mobile Telecommunications System (UMTS), Long Term Evolution (LTE), or according to any other wireless communication standard.

The communication unit 200 may be adapted to send an image or a continuous flow of 35 images, represented by e.g. a video, film, movie etc. to the recipient of the video

telephony call. The images may display an object 130 illuminated with infra red light and/ or ultra violet light 120 emitted from a light emitting element 110, such that the recipient of the video telephony call may receive an image representing the object 130, visible for a human eye.

The portable electronic device 100 may in some embodiments comprise a view finder 140, which may be adapted to display the object 130 illuminated by the at least one light emitting element 110, as previously explained. Thus the portable electronic device 100 may be used as a black flashlight when the portable electronic device 100 is set to a view finder mode.

When the portable electronic device 100 is set to a view finder mode, observations may be made in darkness without disturbing the surrounding and/or without destroying the night vision of a user.

An advantage with these embodiments is that an observation of something that occurs in darkness may be made, without using a flashlight. This may be of particular advantage in situations where the usage of a flashlight may be inappropriate, e.g. when a user is trying to find her/his way to the seat in a dark cinema.

According to some embodiments, the portable electronic device 100 may comprise a lens 250 situated in front of at least one of the at least one light emitting elements 110. Thus the infra red light and/ or ultra violet light 120 may be focused on a certain predetermined distance. For some light emitting elements 110, in particular for light emitting elements 110 intended to be used for video telephony, the lens 250 may be adapted to focus the emitted infra red light and/ or ultra violet light 120 on a distance of approximately 0.2-0.5 metres, i.e. arm length distance. For some other light emitting elements 110, which may be intended to be used for photography or video recording, the lens 250 may be adapted to focus the emitted infra red light and/ or ultra violet light 120 on a distance of approximately 0.5-20 metres, e.g. on a distance of between 1-2 metres. According to some embodiments, different light emitting elements 110 may have a lens 250, which may be adapted to focus the emitted infra red light and/ or ultra violet light 120 on different distances. E.g. one light emitting element 110 may have a lens 250 adapted to focus the emitted infra red light and/ or ultra violet light 120 on a distance of 0.5 metre, another light emitting element 110 may have a lens 250 adapted to focus the emitted infra red light

and/ or ultra violet light 120 on a distance of 1 metre, yet another light emitting element 1 10 may have a lens 250 adapted to focus the emitted infra red light and/ or ultra violet light 120 on a distance of 1.5 metre, etc.

As previously mentioned, the portable electronic device 100 in some embodiments may comprise a plurality of image capturing devices 240, e.g. one camera adapted for video telephony on a first side of the portable electronic device 100 and one camera adapted to take pictures and/or video recordings on a second side of the portable electronic device 100. According to some embodiments, light emitting elements 110 may be situated on two different sides of the portable electronic device 100, e.g. on two opposite sides. According to some embodiments, at least one light emitting element 110, e.g. approximately 1-4 light emitting elements 110, adapted for video telephony may be placed on the first side of the portable electronic device 100, which first side also comprise a camera adapted for video telephony. On the second side of the portable electronic device 100, at least one light emitting element 110, e.g. approximately 1-10 light emitting elements 110, adapted for illumination of a photo and/or video recording may be situated.

Figure 3 is a flow chart illustrating a method in a portable electronic device 100 for visualisation of an object 130 in darkness by illumination with light 120 with a wavelength outside the visible spectrum. The method concerns the use of a portable electronic device 100 comprising an image capturing unit 240 and at least one light emitting element 110. The method comprises the following steps:

Step 300 The portable electronic device 100 activates an image capturing function, e.g. camera functionality or video telephony functionality. This activation may be made by the user manually by indicating that the portable electronic device 100 should be put in an image capturing mode or video telephony mode. The activation of an image capturing function may in some embodiments also be made automatically, e.g. upon detection of a noise level exceeding a certain predetermined threshold value, or by the trigger from a movement detector. This may be an advantage, in particular when the portable electronic device 100 is set to surveillance mode.

Step 310

The control unit 210 may be adapted to receive light related data indicating the strength of the incoming light, e.g. a darkness indication and comparing it with a predetermined threshold value. Light related data indicating the strength of the incoming light, may be measured by a sensor 230 comprised within the portable electronic device 100, e.g. a 5 light sensor measuring the light conditions. The predetermined threshold value may be previously stored in a memory unit 220, comprised within the portable electronic device 100. The predetermined threshold value represents a value when the image capturing device 240 needs extra light in order to properly capture an image of an object 130. The control unit 210 may be adapted to determine when to activate and when to deactivate the

10 at least one light emitting element 110 based on said light related data, and to generate control information, for activating or deactivating the at least one light emitting element 110. Thus control information to the at least one light emitting element 110 is generated for activating the at least one light emitting element 1 10 if the measured light related data is lower than a certain predetermined threshold value, or deactivating the at least one light

15 emitting element 110 if the measured light related data is higher than a certain predetermined threshold value and the image capturing unit 240 is still activated.

The darkness indication may however be made manually by a user e.g. by pressing a button on the portable electronic device 100.

20

Step 320

If a darkness indication is received and an image capturing function is activated, a control signal for activating the light emitting element 110 is sent from the control unit 210 to the light emitting element 110, such that the intended photo object 130 is illuminated with light

25 120 with a wavelength outside the visible spectrum.

The method for creating visualisation of an object 130 in darkness by illumination with light 120 with a wavelength outside the visible spectrum by using a portable electronic device 100 according to the present method can be implemented through one or more

30 processors, such as the processor unit 210 in the portable communication device 100 depicted in Figure 2 and the processor unit 430 in the adaptor unit 400 depicted in Figure 4, together with computer program code for performing the functions of the method. The program code mentioned above may also be provided as a computer program product, for instance in the form of a data carrier carrying computer program code for performing the

35 method according to the present invention when being loaded into a processor unit 210

and/or 430. The data carrier may be a CD ROM disc, a memory stick, or any other appropriate medium such as a disk or tape that can hold machine readable data. The computer program code can furthermore be provided as pure program code on a server and downloaded to the portable communication device 100 and/or adaptor unit 400 remotely.

Thus a computer program comprising instruction sets for performing the method according to steps 300-320 may be used for implementing the previously described method.

This may be performed in form of a computer program product comprising computer- readable program code embodied on a computer-readable medium, the computer readable program code being configured to carry out the method according to steps 300- 320.

Figure 4 is schematically illustrating an embodiment of a system with a portable electronic device 500 and an accessory 400, arranged to be attached to the portable electronic device 500 and to illuminate an object 130 with light 120 with a wavelength outside the visible spectrum, such as infra red light and/or ultra violet light.

There may emerge a need of a portable electronic device 500 adapted to emit light 120 with a wavelength outside the visible spectrum and to capture an image of the object 130 illuminated with infra red light and/or ultra violet light, also among users of portable electronic devices 500 not being adapted to emit infra red light and/or ultra violet light. Such desire may be satisfied by providing an accessory 400, the accessory 400 is arranged to be attached to a portable electronic device 500. Such an accessory 500 adapted to be attached to a portable electronic device 500 is depicted in Figure 4.

The portable electronic device 500 as herein described may in an embodiment comprise a mobile station such as a mobile cellular radiotelephone. The portable electronic device

500 may however in an embodiment comprise a Personal Digital Assistant (PDA), a laptop, a computer, a digital still camera, a digital video camera or any other kind of portable electronic device, such as a notebook computer, walkie-talkie, hunting radio, baby monitor etc. The portable electronic device 500 may in one embodiment be a foldable portable electronic device such as a clam shell or foldable knife type cellular

phone e.g. Sony Ericsson W300i. However, the portable electronic device 500 comprises an image capturing unit.

The connection between the accessory 400 and the portable electronic device 500 may be made through e.g. a fast port connector. According to some embodiments, the accessory 400 is connected directly to the fast port connector of the portable electronic device 500. According to some embodiments, the accessory 400 is connected via a cable to the fast port connector of the portable electronic device 500. According to some embodiments, the accessory 400 is connected via a Bluetooth connection to the portable electronic device 500. According to some embodiments, the accessory 400 is connected via an infra red port to the portable electronic device 500.

However, the attachment may alternatively be made e.g. by snapping, sticking, pinning, bolting, pinching, strapping, clipping, pegging, screwing, hooking, hinging, taping, stitching, fastening, tacking, tying, cramping, gluing, velcroing, or in any other convenient way, permanently or temporarily attaching the portable electronic device 500 into the accessory 400. The accessory 400 and a portable electronic device 500 may thus form a system for visualisation of an object 130 in darkness.

The accessory 400 may in an embodiment be produced in a plastic material i.e. a synthetic or semi synthetic polymerization material e.g. polyvinyl chloride, polyethylene, polymethyl, methacrylate, acrylics, silicones, polyurethanes, polypropylene, polystyrene, etc. However, the accessory 400 may as well be produced in e.g. metal, wood, rubber or any other convenient material.

The accessory 400 may be arranged to be attached as an adaptor to a portable electronic device 500 which portable electronic device 500 comprise an image capturing unit 240.

The accessory 400 may in some embodiments comprise a connection unit 460 adapted to send and/or receive control signals from the portable electronic device 500.

Also, the accessory 400 may in some embodiments comprise at least one light emitting element 410 adapted to emit infra red light and/or ultra violet light if a darkness indication is received and the portable electronic device 500 is set in an image capture mode.

According to some embodiments, the accessory 400 may comprise a plurality of light emitting elements 410, e.g. between 2 and 20 light emitting elements 410.

The light emitting element 410 may be a Light-Emitting Diode (LED), an incandescent light bulb, an electric lamp, an arc lamp, a fluorescent light, a high-intensity discharge lamp, an xenon light, a halogen lamp, flashes or any other convenient source capable of emitting photons, thus creating an artificial light out of the visible spectrum. The light emitting element 410 may comprise light emitting elements 410 of the same type or of different types, e.g. LEDs emitting light waves with different wavelength. The light emitting element 410 is in particular adapted to emit infra red light 120. In some embodiments, the light emitting element 110 is adapted to emit infra red light 120 with a wavelength between approximately 750 nm and 1 mm. Different light emitting elements 410 comprised within the accessory 400 may be adapted to emit infra red light 120 with different wavelength. Further, according to some embodiments, the accessory 400 may comprise same light emitting elements 410 adapted to emit infra red light 120 and some light emitting elements 410 adapted to emit ultra violet light and/or light within the visible spectrum.

Further, according to some embodiments, the accessory 400 may comprise a light sensor 420, adapted to measure light related data indicating the strength of the incoming light, said light sensor 420, being further adapted to send said light related data to a control unit 430. The control unit 430 may in some embodiments be comprised in the portable electronic device 500.

The at least one light emitting element 410, comprised within the accessory 400 may in some embodiments be adapted to receive a control signal from the control unit 430. The control unit 430 may according to some embodiments be adapted to determine when to activate and when to deactivate the at least one light emitting element 410 comprised within the accessory 400. Such determination may be based on said light related data.

The control unit 430 may according to some embodiments be adapted to send control information to the at least one light emitting element 410 for activating or deactivating the at least one light emitting element 410.

According to some embodiments, the accessory 400 may comprise a lens 440 situated in front of at least one of the at least one light emitting elements 410. Thus the infra red light and/or ultra violet light 120 may be focused on a certain predetermined distance. For

some light emitting elements 410, in particular for light emitting elements 410 intended to be used for video telephony, the lens 440 may be adapted to focus the emitted infra red light and/or ultra violet light 120 on a distance of approximately 0.2-0.5 metres, i.e. arm length distance. For some other light emitting elements 410, which may be intended to be used for photography or video recording, the lens 440 may be adapted to focus the emitted light 120 on a distance of approximately 0.5-20 metres, e.g. on a distance of between 1-2 metres. According to some embodiments, different light emitting elements 410 may have a lens 440, which may be adapted to focus the emitted light 120 on different distances. E.g. one light emitting element 410 may have a lens 440 adapted to focus the emitted infra red light and/or ultra violet light 120 on a distance of 0.5 metre, another light emitting element 410 may have a lens 440 adapted to focus the emitted infra red light and/or ultra violet light 120 on a distance of 1 metre, yet another light emitting element 410 may have a lens 440 adapted to focus the emitted infra red light and/or ultra violet light 120 on a distance of 1.5 metre, etc.

According to some embodiments of the accessory 400 comprising a plurality of light emitting elements 410, these may be situated on two different sides of the accessory 400, e.g. on two opposite sides of the accessory 400.

According to some embodiments, at least one light emitting element 410, e.g. approximately 1-4 light emitting elements 410, adapted for video telephony may be placed on the first side of the accessory 400. On the second side of the accessory 400, at least one light emitting element 410, e.g. approximately 1-10 light emitting elements 410, adapted for illumination of a photo and/or video recording may be situated.

In some embodiments, the accessory 400 have at least one light emitting element 410 placed on one side of the accessory 400. According to some embodiments, the accessory 400 is arranged to be turned in the direction where infra red light and/or ultra violet light 120 is desired, e.g. towards the user when the user is performing a video telephony call and/or directed towards an object 130 when the user intends to take a photographic image or record a film.

According to some embodiments, as previously described, the accessory 400 may be connected via a wireless connection to the portable electronic device 500, such as e.g. a Bluetooth connection, infra red port or similar. Thus it may according to some

embodiments be possible to use a plurality of accessories 400 to serve one portable electronic device 500. These accessories 400 may be placed in a plurality of locations on different distances from the portable electronic device 500 in order to cover a larger area with infra red light and/or ultra violet light 120; and/or to intensify the illumination of a selected object 130.

An advantage with using a Bluetooth connection is that the accessory may be placed closer to the object 130 than the portable electronic device 500. Thus the light emitting elements 410 comprised within the accessory does not have to emit as much infra red light and/or ultra violet light 120 as otherwise would be needed in order to properly illuminate the object 130. Energy sources thus may be saved.

The portable electronic device 100 or the accessory 400 may according to some embodiments be used e.g. by a hunter making observations of a game animal in insufficient light conditions, when the portable electronic device 100 or the accessory 400 is set to a view finder mode. The emitted light may in some embodiments be within the infra red spectrum. In some embodiments, the portable electronic device 100 or the accessory 400 may be adapted to be mounted on the telescopic sight of a rifle or on a binocular. According to some of these embodiments, the portable electronic device 100 or the portable electronic device 500 may be represented by a hunting radio.

An advantage of such embodiments is that a detection and identification of a game animal in unfavourable light conditions may be made without alarming the animal.

Thanks to its infra-red capabilities, the portable electronic device 100 and/or accessory 400 may capture evidence or images which is not seen by the human eye and functions in both the visible and infrared light spectrums. For example, the infra-red capabilities may be helpful to find e.g. blood stain, which may be of great value when tracing a wounded animal in a hunting situation; or looking for evidence in a police investigation etc.

When the present portable electronic device 100 and/or accessory 400 is used for emitting light within the ultra violet spectrum, blood, urine and other secretions of some animals may be spotted more easily, which may lead to an easier animal tracking. Forensic scientists may also use the portable electronic device 100 and/or accessory 400

in order to capture evidence at crime scenes to find blood, urine, or semen, all fluorescent in ultra violet light.

Further, certain flowers, fruits, insects and dangerous animals e.g. scorpions become fluorescent in ultra violet light. The portable electronic device 100 and/or accessory 400 may be used for emitting light within the ultra violet spectrum for detecting such flowers, fruits, insects and dangerous animals e.g. scorpions. Thus the danger of triggering a scorpion attack in bad light conditions may be reduced.

The portable electronic device 100 or the accessory 400 may according to some embodiments be used e.g. as a sight aid in bad lightning conditions e.g. for visually impaired, weak-sighted, elderly people, disabled or for people with reduced night vision etc. This may be the case in particular when the portable electronic device 100 or the accessory 400 is set to a view finder mode.

When the portable electronic device 100 or the accessory 400 is set to a view finder mode, observations may be made in darkness without disturbing the surrounding and/or without destroying the night vision of a user.

An advantage of having the described sight aid available on a portable electronic device 100 or the accessory 400 is that most users of a portable electronic device 100 or the accessory 400 always, or at least rather frequently, carry the portable electronic device 100 or the accessory 400 with them. Thus a sight aid within the portable electronic device 100 or the accessory 400 may often be easily accessible to the user.

The portable electronic device 100 or the accessory 400 may according to some embodiments be used e.g. as a tool for inspecting battery status of an electronic device capable of emitting infra red light 120, such as e.g. a remote control or a device comprising an infra red port. When using the portable electronic device 100 or the accessory 400 for inspecting the battery status, the remote control is firstly activated and directed in line of sight from the portable electronic device 100 or the accessory 400. When the portable electronic device 100 or the accessory 400 is set e.g. to a view finder mode, it may be directed towards the activated remote control. The portable electronic device 100 or the accessory 400 will detect any emitted infra red light and may display it in the view finder 140. If the remote control emit infra red light, the battery is OK and the

remote control appears to function properly. Otherwise, the battery of the remote control may be empty or the remote control is out of order for some other reason.

The portable electronic device 100 or the accessory 400 may according to some embodiments be used e.g. as a device for surveillance, in particular adapted for discrete surveillance in insufficient light conditions. When the portable electronic device 100 or the accessory 400 according to these embodiments is set to a surveillance mode, the image capturing function and/or video telephony function of the portable electronic device 100 or the accessory 400 may be activated upon the detection of a sound above a certain predetermined threshold level. In some embodiments, the image capturing function and/or video telephony function of the portable electronic device 100 or the accessory 400 may be activated with a regular time interval, e.g. every hour. According to some embodiments, the image capturing function and/or video telephony function of the portable electronic device 100 or the accessory 400 may be activated upon request from a user when the portable electronic device 100 or the accessory 400 receive an activation signal from another portable electronic device 100 or the accessory 400, e.g. in form of an Short Message Service (SMS) message. In some embodiments, the image capturing function and/or video telephony function of the portable electronic device 100 or the accessory 400 may be activated when an activation signal is received from a movement sensor.

Thus a discrete surveillance in darkness may be made. This may be an advantage e.g. for parents who want to watch their baby while they temporarily leave the home for a visit at a restaurant etc. The portable electronic device 100 or the accessory 400 according to these embodiments may also be used as a silent burglar alarm. Due to the high portability of the portable electronic device 100 or the accessory 400, the use of the portable electronic device 100 or the accessory 400 in surveillance mode may be an advantage in particular for a travelling user e.g. for surveillance of a hotel room, or for surveillance of a vehicle e.g. a car.

The portable electronic device 100 or the accessory 400 may, according to some embodiments comprising light emitting elements 110 for emitting light within the ultra violet spectrum also be used for combating counterfeiters of certain sensitive documents such as e.g. bank notes, credit cards, driver's licenses, passports etc. These documents may include inter alia a UV watermark that can only be seen when viewed under a UV-emitting light. Currencies of various countries' banknotes may have an image, text, letter, national symbol or pattern or similar, which is visible only under ultraviolet light.

The present portable electronic device 100 or accessory 400 may with advantage be used as a portable document verification device, which may be useful in particular when travelling to foreign nations where the user is less familiar with the appearance of the local bank notes.

Organic material, chemicals and many other substances are fluorescent and lights up with UV-light.

Thus the portable electronic device 100 or the accessory 400 may, according to some embodiments comprising light emitting elements 110 for emitting light within the ultra violet spectrum also be used for inspection of cleaning and hygiene in production equipment, production premises, toilettes, sports centres, hospitals etc. This may be an advantage in particular for a user who is travelling and want to instantly monitor the hygienic standard e.g. the bath room of a hotel room.

As ultra violet light discourages and prohibits growth of mold, spores, algae, bacteria, germs, viruses and other organisms and micro organisms and allergens, the portable electronic device 100 or the accessory 400 may, according to some embodiments comprising light emitting elements 110 for emitting light within the ultra violet spectrum also be used for sterilisation. According to some embodiments, ultra violet light with a wave length between 10 nm and 280 nm may be used with particular advantage for sterilization purposes.

The use of the portable electronic device 100 or the accessory 400 for sterilization purposes may be of particular advantage for the travelling user who wants to e.g. sterilize a tooth brush which has been dropped on the floor.

The portable electronic device 100 or the accessory 400 according to some embodiments comprising light emitting elements 110 for emitting light within the ultra violet spectrum may also be used for stimulating the human skin to produce vitamin D. this may be an advantage in particular for people suffering from vitamin D deficiency or jaundice. Also, the portable electronic device 100 or the accessory 400 may be used for treating certain skin conditions such as psoriasis, vitiligo or acne.

The portable electronic device 100 or the accessory 400 according to some embodiments comprising light emitting elements 110 for emitting light within the ultra violet spectrum may also be used for sun tanning.

The portable electronic device 100 or the accessory 400 according to some embodiments comprising light emitting elements 110 for emitting light within the ultra violet spectrum may also be used for finding cracks, repaired damages, repainted surfaces etc, as such damages are easy to spot in ultra violet light. This may be an advantage e.g. when buying antiquities etc.

The portable electronic device 100 or the accessory 400 may in some embodiments be used as a party booster, providing a consistent ultra violet light and/or stroboscopicly blinking ultra violet flashes etc. In some embodiments, a music player such as an MP3 player may be comprised within the portable electronic device 100 or in the portable communication device 500 or even within the accessory 400, and activated simultaneously with the generation of the light 120 outside the visible spectrum when the portable electronic device 100 or the accessory 400 is set into party booster mode.

The recreational effect of the described portable electronic device 100 or the accessory 400 may be somewhat increased e.g. by using fluorescent makeup in combination with the invention.

While the portable electronic device 100, the method for visualisation of an object 130 in darkness, the computer program and the accessory 400 described in this document is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and are herein described in detail. It should be understood, however, that there is no intent to limit the present portable electronic device 100, the method for visualisation of an object 130 in darkness, computer program or accessory 400 to any of the particular forms disclosed, but on the contrary, the present portable electronic device 100 and method, computer program and accessory 400 is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the portable electronic device 100, the method for visualisation of an object 130 in darkness, computer program and accessory 400 as defined by the claims.

Like reference numbers signify like elements throughout the description of the figures.

As used herein, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless expressly stated otherwise. It should be further understood that the terms "comprises" and/or "comprising" when used in this specification is taken to specify

the presence of stated features, integers, steps, operations, elements, and/or components, but does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may be present.

Furthermore, "connected" or "coupled" as used herein may include wirelessly connected or coupled. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Unless otherwise defined, all terms including technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the portable electronic device 100, the method for visualisation of an object 130 in darkness, computer program and/or accessory 400 belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.