Title of Invention	COMMUNICATION NETWORK AND ARRANGEMENT
Abstract	The present invention relates to a communication unit (10), network and method for communication within a communication network, the unit comprising a transceiver portion, a processing unit and one or several interface arrangements for communication with one or several peripheral devices. The unit further comprises an arrangement for transceiving at least parts of a signal to the communication network using one or several of said interface arrangements for communication with said one or several peripheral devices.

Title of Invention

COMMUNICATION NETWORK AND ARRANGEMENT

Abstract

The present invention relates to a communication unit (10), network and method for communication within a communication network, the unit comprising a transceiver portion, a processing unit and one or several interface arrangements for communication with one or several peripheral devices. The unit further comprises an arrangement for transceiving at least parts of a signal to the communication network using one or several of said interface arrangements for communication with said one or several peripheral devices.

Full Text	TECHNICAL FIELD The present invention relates to a communication network, method and unit for improving performance of radio communication and in particular to a multi path solution using a plurality of neighbouring communication enabled devices. BACKGROUND OF THE INVENTION There is an ever increasing demand for available bandwidth and radio resources in wireless communication. Currently, the wireless communication field is one of the most expansive development and deployment fields within the communication arena. However, wireless communication have several drawbacks and inherent problems that limit the amount of available bandwidth and radio resources since they operate in an open field with competing radio resources, disturbing objects and disturbing environments, and limits to the amount of radio traffic that can be employed at the same time within a given area. One way of decreasing the effect of disturbing environment may be to use antenna diversity, i.e. essentially two antennas receiving the same signal and in a smart way analysing the signals from these two antennas in order to acquire a large signal to noise ratio (SNR). This demands devices with two (or more antennas) which may increase cost and geometrical size of the devices. Using two or more antennas in one device for transmitting signals it is possible to use different radio channels and therefore potentially increase the available bandwidth for that device; again this increases the cost and size of the device. SUMMARY OF THE INVENTION It is an object of the present invention to provide a device, method, and system that may increase transmission and receiving redundancy and/or increase the bandwidth for the device. Some attempts to enhance the bandwidth utilization have been done, for instance: In EP1113592 a communication method is disclosed that is used when a mobile station receives a signal from a base station, In the method signals to a mobile station is transmitted using one or several other mobile stations. This solution provides a solution where other mobile units within the same cell transmit data downstream to a mobile station in a relaying manner; i.e. the relaying mobile stations receive communication from the base station and determines the destination and retransmits this towards the final destination. In DE10027115 OFDM radio access technology nas relay stations to send uplink and downlink signals from a centra! station onwards to user terminals with relay selection based on transmission of measured signal data to the central station. In this document also a relaying function is discussed. WO0237771 discloses methods and systems using short link radios (SLRs) with mobile terminals are disclosed. A mobile terminal having a SLR connects to other mobile terminals having SLRs over a SLR link to increase the throughput, the QoS, or both of the system. The mobile terminals establish a SLR link between a first mobile terminal and a second mobile terminal. Both mobile terminals receive data transmitted from a base station intended for the first mobile terminal The second mobile terminal then retransmits the data received by the second mobile terminal to the first mobile terminal via the SLR link. EP1545076 discloses a method ana apparatus for improving a network. The network uses the energy from a vehicle battery or vehicle generator to power an intermediate transmitted device that receives the signal from a portable wireless device and retransmits the information in the signal to a base station. The intermediate transmitter device also receives information from the base station and retransmits the information to the portable wireless device. The described system expands the areas in which a wireless device may be used. In US2003220074 a portable wireless system is described. The portable wireless system has a controller that is operable to selectively configure the portable wireless system as a personal electronic appliance or a third party wireless repeater that is configured to relay wireless signals between a third party electronic appliance and a wireless network Accordingly, the portable wireless system (e.g., a cellular telephone, a pager or a personal digital assistant) may act as a wireless repeater for third party wireless communications when the portable wireless system otherwise is not in use. In this way, the portable wireless system increases the utilization of existing wireless network infrastructures (e.g., a cellular telephone network) by making one or more unused wireless channels available to other devices, A novel incentives-based business model that encourages owners of portable electronic appliances to fully utilize existing wireless network capacity also is described, In "Position assisted reraying and handover in hybrid ad hoc WCDMA cellular systems" by Jung Houn Yap et at at "Personal, indoor and mobile radio communications, 2C02, the 13th IEEE International Symposium on Sept, 15-18, Piscataway, NJ, USA, IEEE, vol 5, 15 September 2002, pages 2194-2198, a solution with relaying mobile stations are discussed, In most of these solutions either a mobile ad-hoc network is used for transferring communication data and/or packet inspection analysis is needed to determine the final destination of the data. This is provided by in a first aspect of the present invention, a communication unit for communication within a communication network, the unit comprising a transceiver portion, a processing unit and one or several interface arrangements for communication with one or several peripheral devices, characterized in that the unit further comprises an arrangement for transceiving at least parts of a signal to the communication network using one or several of the interface arrangements for communication with the one or several peripheral devices. The communication unit may be a mobile communication unit, such as from the list of a mobile phone, a personal digital assistant (PDA), a mobile computer, and a mobile music platform. The communication unit may comprise a processing unit, a storage unit, an interface unit, at least one communication portion, a first communication interface, at least one second communication interface, and an identification arrangement. The processing unit may comprise additional instruction set for handling and processing signals in respect to transmission and reception in the peripheral devices for communicating with the communication network. The first communication interface may handle a wireless interface used as a main communication link. The second communication interface may be used for communication with peripheral equipment. The peripheral device may be at least one of a Personal Digital Assistant (PDA), a mobile computer, a printer, a docking station, a battery charging device, storage device, music platform device, telephones, set top boxes for digital audio and/or video, routers or wireless data communication. The second communication interface may comprise at least one of a wireless interface or wire connection. The wire connection may be one or several of Ethernet, USB, Firewire, optical, serial or parallel connections. The first and second communication interface may use dissimilar wireless methods. The communication unit and the peripheral devices may be arranged to act as one unit having several antennas towards said communication network. Another aspect of the present invention, a communication network is provided comprising: a communication unit having a communication arrangement for communication with a telecommunication network, at least one peripheral unit communicatively connectable to the communication unit and having means for communication with the telecommunication network, characterized in that the at least one unit is arranged to mediate a communication signal between the telecommunication network and the communication unit in the communication network. The telecommunication network is one or several of GSM (Global System for Mobile communication), GPRS (General Packet Radio Service), EDGE (Enhanced Data rates for Global Evolution), UMTS (Universal Mobile Telecommunications System), CDMA (Code Division Multiple Access), CDMA2000 or WCDMA (wideband CDMA). The at least one transmitter and/or receiver arrangement may control mediation of the signal. The communication unit may control mediation of the signal. The communication unit and said peripheral units may receive the same type or even the same radio signal. The communication unit and said peripheral units may be perceived as one unit having multiple antennas. Yet another aspect of the present invention, a device having means for receiving and/or transmitting signals via a wireless interface and a connection arrangement for connection to a mobile communication unit is provided, characterised in that the device comprises a connection portion for connecting the wireless interface to the connection arrangement and further to the mobile communication unit for connecting a signal from the wireless interface to the mobile communication unit. The device may be at least one of a Personal Digital Assistant (PDA), a mobile computer, a printer, a docking station, a battery charging device, storage device, telephones, set top boxes for digital audio and/or video, routers or wireless data communication. The second communication arrangement may comprise at least on of an air interface or wire connection. The wire connection is one or several of Ethernet, USB, optical, Firewire, serial or parallel connections. Still another aspect of the present invention, a method of enhancing one or several of redundancy, bandwidth, capacity, error handling or payload in a communication network is provided, comprising a communication unit for communication with a communication station, and a number of devices having communication ability with the communication centre, the method comprising the steps of: receiving data by the devices over a radio channel, providing the data to the communication unit through a communication interface, processing the data received from the devices and signal from the communication station. The method may further comprise the steps of: establishing a communication link with the communication station either by the communication unit or the communication station determining if an communication quality parameter, in an optional parallel or subsequent step, determining the quality of an established link and making a decision to open an additional link to the devices connected to the communication unit connecting to the communication unit the devices, establishing a communication link between the communication station the devices, and routing data from the communication unit via the plurality of established communication links to the communication station. These and other aspects of the invention will be apparent from and elucidated with reference to the embodiments described hereinafter. BRIEF DESCRIPTION OF THE DRAWINGS In the following the invention will be described in a non-limiting way and in more detail with reference to exemplary embodiments illustrated in the enclosed drawings, in which: Fig. 1 illustrates a network system according to the present invention; Fig. 2 illustrates a mobile unit according to the present invention; Fig. 3 illustrates schematically a flow diagram of a method according to the present invention; and Fig. 4 illustrates schematically a block diagram of a mobile unit according to the invention. DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS Basically, the invention emulates a MIMO (Multiple Input Multiple Output) terminal which allows using transmission schemes involving several radio channels, without incorporating several antennas in same device, which will be detailed in the following description of the exemplary embodiments. Fig. 1 illustrates a communication network system 100 according to the present invention including a mobile wireless unit 10, e.g. a mobile phone, a personal digital assistant (PDA), a mobile computer, or a mobile music platform (e.g. an MP3 player), and a number of different peripheral devices such as a personal digital assistant (PDA) 20, a laptop 30, and a printer 40. The network system comprises a central communication device 50 connected to a network 120. The communication device 10 may be connected to a base station 50 or transceiver of the network. The mobile unit 10 is arranged to communicate with the different peripheral devices 20, 30, and 40 using one or several of different available communication interfaces, for instance a wireless (e.g. Bluetooth) link 60 to the PDA 20, a USB link 70 to the laptop 30, and an Ethernet link 80 to the printer 40. The mobile unit 10 is arranged to mainly establish a wireless communication link 90 with the central communication device 50 (such as a 2G, 2.5G, or 3G base station; "G" stands for generation, i.e. 2G means second generation mobile telephony systems and so on) for transmitting and receiving communication signals to/from the network 120 using any type of suitable link 110 between the central communication device 50 and the network 120. All devices including the mobile unit 10 and the peripheral devices 20, 30, 40 utilize the same communication type towards the central communication device 50 (e.g. a base station). To employ the teachings of the invention, each peripheral device comprises an air interface for RF communication with the network. The interface may be an internal or external cell phone or the like. In the laptop, for example, a PC-card including a transceiver can be used. The modern PDA's usually also include a cell phone ability and so on. It should be noted that all devices able of communicating wirelessly with the network, must have a unique identity within the local network formed by the mobile unit 10 and the different peripheral devices 20, 30, 40 in a conventional way. However, with respect to the base station 50 all devices should have the same ID so as to provide a single interface towards the base station 50. The base station then believes that it is communicating with a single mobile unit 10 with a plurality of antennas. In this manner a plurality of radio links 90 and radio channels may be established to the central communication device 50 increasing the available bandwidth and/or providing redundancy using peripheral devices 20, 30 and 40, acting as access converters or access relays. These peripheral devices 20, 30 and 40 may be any type of equipment that can communicate with the mobile unit 10, such as the mentioned PDA, laptop, or printer, but also for instance a docking station, battery charging devices, other mobile units, storage devices, music platform devices (e.g. an MP3 player), telephones, set top boxes for digital audio and/or video, routers, wireless data communication devices (e.g. WLAN, WPAN, and other similar devices). The mobile unit 10 may communicate with different peripherals using a plurality of communication links, such as IR (infrared), Bluetooth, WLAN (Wireless Local Area Network), e.g. from the IEEE 802.11, 802.15, and 802.16 families, Ethernet, serial or parallel communication, USB (Universal Serial Bus), Firewire (IEEE 1394), or optical communication solutions. However, the communication links between the devices are not limited to the above mentioned types, but any other suitable communication link solution now existing or future developments may be used as understood by the person skilled in the art. The communication links between the mobile unit 10 and the peripheral devices 20, 30, 40 on one side and the central communication device 50 may be as mentioned earlier using 2G, 2.5G, and 3G, but also future similar wireless communication links. One important aspect of the invention is that the link between the mobile unit 10 and the central communication device 50 is of the same type as between the peripheral devices 20, 30, 40 and the central communication device 50. With the term 2G is meant GSM (Global System for Mobile communication), CDMA (Code Division Multiple Access), or similar low data rate communication links, with 2.5G is meant any type of intermediate data rate communication link such as GPRS (General Packet Radio Service) and EDGE (Enhanced Data rates for Global Evolution), and with 3G is meant higher data rate communication links such as UMTS (Universal Mobile Telecommunications System), CDMA2000, or WCDMA (wideband CDMA). Turning now to Fig. 2 illustrating a mobile unit 200 according to the present invention comprises a processing unit 201, a storage unit 202, an interface unit 203, at least one communication unit 204, a first communication interface 205 and a plurality of peripheral communication interfaces 206, 207, and 208. The mobile unit further comprises an identification arrangement 209 for uniquely identifying it in the network. The identification arrangement can be a SIM (Subscriber Identity Module) card, IMSI (International Mobile Subscriber Identity), or any other unique identifier. The processing unit 201 has instruction sets for different operations and functions available in the mobile unit, e.g. for interfacing with the user, address and phone register, coding and decoding of voice and/or data, and many other normal operations and functions normally available in mobile units. However, according to the present invention, additional instruction sets for handling and processing the signals incoming from the peripheral devices received and relayed from the communication network are provided. The storage unit 202 may be provided for storing data permanently and/or temporarily, such as an address and phone register, user information and so on. The interface unit 203 may be provided for interfacing with a user via a keypad and an LCD screen or similar. The communication unit 204 may be provided for handling communication related issues such as deciding on which communication interface to use depending on type of data to send or receive (including digital data and voice data). The first communication interface 205 handles a wireless interface used as a main communication link, for instance 2.5G or 3G interface. The peripheral interface units 206, 207, 208 are used for communication with peripheral equipment, as described earlier. The peripheral equipment may be similarly built with similar components as the mobile unit; however, it should be understood that operations and functions may differ slightly of course depending on type of equipment. Fig. 4 illustrates a schematic of the reception and transmission of signals by the mobile unit 410. Thus, according to this embodiment, it is assumed that the system of the invention acts as MIMO emulator, in which the peripheral devices act as additional antennas. In this case peripheral are denoted with 420, 430 and 440. Each peripheral device comprises an antenna 421, 431, 441 connected to a transceiver unit (not shown). The mobile station comprises the interfaces 406-408 for communication with peripherals as mentioned earlier. Moreover, the antenna 411 of the mobile unit is connected to the processing unit through the interface 405. The processing arrangement 401 receives the inputs from the interfaces and processes the signals. This is important that the signals are so processed that the information derived from the signals provides correct result. The peripherals can be tuned into different channels or same channel as the communication unit depending on application and how the components interact. In a first simple application of the present invention, it is utilized as a powerful diversity antenna solution, where a plurality of antennas send the same signal and thus providing e.g. radio signal diversity for handling small scale (microscopic) fading. This is useful for any type of mobile communication solution, including GSM and upwards in the cell phone version history. It is not necessary to demand any changes of the central communication device side (e.g. base station) 50, but the invention may be implemented on the mobile unit 10 side only. For systems where the essential parts of the system network (i.e. on both mobile unit and base station side) are arranged according to the present invention, it is possible to allow for multiple bit streams transmitted in parallel. The different bit streams are then separated by synchronization codes (embedded into the data packets or signaling packets) that are unique for each bit stream in order to be able to separate the bit streams from each other. The separation is similar as may be found for direct sequence spread spectrum (DSSS) techniques, where orthogonal (or semi-orthogonal) codes are used to separate different data streams from each other. This type of enhanced data streaming is particularly useful for the more recent cell phone infrastructure systems, e.g. 2.5G and 3G systems. Turning now to Fig. 3 wherein a flow diagram illustrates steps of a method according to the present invention. In a first step 301, the user establishes a communication link with the base station through the communication device 50 and possibly further up the communication link channel (depending on the type of the communication link) as understood by the person skilled in the art. In step 302, either the mobile unit 10 or the base station (or any other device on the base station side of the communication link) determines if the available communication rate is sufficient or if there is a need for increasing this rate. In an optional parallel or subsequent step 303, the system may determine the quality of the established link (or links) and selects to open additional links or channels to the devices connected to the mobile unit, to provide redundancy, multiple streams, or error handling functions. In step 304, the peripheral units 20, 30, 40 are connected to the mobile unit 10 or already established connections are used and in a subsequent step 305 the mobile unit 10 establishes communication links with the central communication device 50 via each peripheral unit each using a communication link with the central communication device 50 in a similar manner as the mobile unit 10. The mobile unit 10 routes data via the plurality of established communication links (via the direct first link 90 and/or via links 60, 70, 80 to the peripheral units 20, 30, 40). The traffic is routed to or from the mobile unit 10 according to a predetermined traffic shaping function in order to use the peripheral devices 20, 30, 40 in a rate optimal manner, i.e. depending on data rate of established links either between the mobile unit 10 and each peripheral unit 20, 30, 40 and/or between each peripheral unit 20, 30, 40 and the central communication device 50. The mobile unit may also use other parameters in the traffic shaping function, e.g. battery levels of peripheral units, link quality (such as signal to noise levels and/or data rate), type of peripheral unit, type of data, ownership of peripheral units, and so on. In a last step 306, when the communication session is terminated, the communication links not used are terminated. In a similar manner, the base station 50 may use established links with the mobile unit 10 directly and/or together with peripheral units 20, 30, 40. There may also be provided a traffic shaping function at the base station side of the communication link as described above for the mobile unit using similar types of traffic shaping criteria. It should be noted that the word "comprising" does not exclude the presence of other elements or steps than those listed and the words "a" or "an" preceding an element do not exclude the presence of a plurality of such elements. It should further be noted that any reference signs do not limit the scope of the claims, that the invention may be at least in part implemented by means of both hardware and software, and that several "means" or "units" may be represented by the same item of hardware. The above mentioned and described embodiments are only given as examples and should not be limiting to the present invention. Other solutions, uses, objectives, and functions within the scope of the invention as claimed in the below described patent claims should be apparent for the person skilled in the art. WE CLAIM : 1. A communication unit (10) for communication within a communication network, the unit comprising a transceiver portion, a processing unit (201) and at least one interface arrangement (206, 207, 208) for communication with at least one peripheral device (20, 30, 40), characterised in that said processing unit (201) further comprises an arrangement for transceiving at least parts of a signal to the communication network using at least one of said interface arrangements for communication with said at least one peripheral device (20, 30, 40) and arranged to transceive signals to the at least one peripheral device in such a way that the at least one peripheral device will transcieve signals with the same ID as the communication unit (10) in communications with a central communication device (50), 2. The communication unit according to claim 1, wherein said communication unit is a mobile communication unit, 3. The communication unit according to claim 1 or 2, wherein sa.d mobile communication unit is at east one of a mobile phone, a personal digital assistant (PDA), a mobile computer, and a mobile music platform. 4. The communication unit according to any of claims 1 to 3, comprising a processing unit (201), a storage unit (202). an interface unit (203), at least one communication portion (204), a first communication interface (205), at least one second communication interface (206, 207, 208), and an identification arrangement (209). 5. The communication unit according to claim 4, wherein the processing unit (201) comprises additional instruction set for handling and processing signals with respect to transmission and reception in the peripheral devices for communication with said communication network, 8 The communication unit according to claim 4, wherein said first communication interface (206) handles a wireless interface used as a main communication link 7. The communication unit according to claim 4, wherein said second communication interface (206, 207, 208) is used for communication with peripheral equipment 8. The communication unit according to claim 1, wherein said peripheral device is at least one of a Personal Digital Assistant (PDA), a mobile computer a printer, a docking station, a battery charging device, storage device, music platform device, telephones, set top boxes for digital audio and/or video, routers or wireless data communication. 9. The communication unit according to claim 4, wherein said second communication interface comprises at least one of a wireless interface or wire connection. 10. The communication unit according to claim 9, wherein said wire connection is one or several of Ethernet USB. Firewire/IEEE 1394, optical, serial or parallel connections. 11. The communication unit according to claim 4, characterized in that said first and second communication interface use dissimilar wireless communication methods. 12. The communication unit according to claim 1, wherein said communication unit and said peripheral devices are arranged to act as one unit having several antennas towards said communication network 13. A communication network comprising; • a mobile communication unit (10) having a communication arrangement for communication with a telecommunication network, • at least one peripheral unit (20, 30, 40) communicatively connectable to said communication unit (10) and having means for communication with said telecommunication network, characterised in that said at least one peripheral untt (20, 30, 40) is arranged to mediate a communication signal between the telecommunication network and said communication unit (10) in said communication network using an identify which is, with respect to a central communication device (50) Identical to the identity of the mobile communication unit {10}. 14, The communication network according to claim 13, wherein said telecommunication network is one or several of GSM (Global System for Mobile communication), GPRS (General Packet Radio Service), EDGE (Enhanced Data, rates for Global Evolution}, UMTS (Universal Mobile Telecommunications System), CDMA (Code Division Multiple Access), CDMA2000 or WCDMA (wideband CDMA). 15, The communication network according to claim13 or 14, wherein said at least ore transmitter and/or receiver arrangement controls mediation of said signal 16, The communication network according to claim 13 or 14, wherein said communication unit controls mediation of said signal 17, The communication network according to any of claims 13-18, wherein said communication unit and said peripheral units receive same type of radio signal from said telecommunications network. 18, The communication network according to any of claims 17, wherein said communication unit and said peripheral units receive same radio signal from said telecommunications network. 19 The communication network according to any of claims 13-18, wherein said communication unit and said peripheral units are perceived from said telecommunications network as one unit having multiple antennas. 20. A device having means for receiving and/or transmitting signals via a wireless interface and a connection arrangement for connection to a mobile communication unit, characterised in that said device comprises a connection portion for connecting said wireless interface to said connection arrangement and further to said mobile communication unit for connecting a signal from said wireless interface to said mobile communication unit and further arranged to identify itself in the wireless interface using an identity which is, with respect to a central communication device (50), identical to the identity of the mobile communication unit (10). 21. The device according to claim 20, wherein said device is at least one of a Persona! Digital Assistant (PDA), a mobile computer, a printer, a docking station, a battery charging device, storage device, telephones, set top boxes for digital audio and/or video, route's or wireless data communication, 22. The device according to claim 20, wherein said second communication arrangement comprises at least one of a wireless interface or wire connection. 23. The device according to claim 20, wherein said wire connection is one or several of Ethernet, USB, optical, Firewire/IEEE 1394, serial or parallel connections. 24. A method of enhancing one or several of redundancy, capacity, bandwidth, error handling or payload in a communication network including a mobile communication unit for communication with a communication station, and a number of devices having communication ability with said communication station, the method comprising the steps of: receiving data by said devices over a radio channel using an identity identical to the mobile communication unit it communications with the communication station. providing said data to said communication unit through a communication interface, processing said data received from said devices and signal from said communicatior station The present invention relates to a communication unit (10), network and method for communication within a communication network, the unit comprising a transceiver portion, a processing unit and one or several interface arrangements for communication with one or several peripheral devices. The unit further comprises an arrangement for transceiving at least parts of a signal to the communication network using one or several of said interface arrangements for communication with said one or several peripheral devices.

Full Text

TECHNICAL FIELD
The present invention relates to a communication network, method and unit for improving
performance of radio communication and in particular to a multi path solution using a
plurality of neighbouring communication enabled devices.
BACKGROUND OF THE INVENTION
There is an ever increasing demand for available bandwidth and radio resources in
wireless communication. Currently, the wireless communication field is one of the most
expansive development and deployment fields within the communication arena. However,
wireless communication have several drawbacks and inherent problems that limit the
amount of available bandwidth and radio resources since they operate in an open field
with competing radio resources, disturbing objects and disturbing environments, and limits
to the amount of radio traffic that can be employed at the same time within a given area.
One way of decreasing the effect of disturbing environment may be to use antenna
diversity, i.e. essentially two antennas receiving the same signal and in a smart way
analysing the signals from these two antennas in order to acquire a large signal to noise
ratio (SNR). This demands devices with two (or more antennas) which may increase cost
and geometrical size of the devices. Using two or more antennas in one device for
transmitting signals it is possible to use different radio channels and therefore potentially
increase the available bandwidth for that device; again this increases the cost and size of
the device.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a device, method, and system that may
increase transmission and receiving redundancy and/or increase the bandwidth for the
device.

Some attempts to enhance the bandwidth utilization have been done, for instance:
In EP1113592 a communication method is disclosed that is used when a mobile station
receives a signal from a base station, In the method signals to a mobile station is
transmitted using one or several other mobile stations. This solution provides a solution
where other mobile units within the same cell transmit data downstream to a mobile
station in a relaying manner; i.e. the relaying mobile stations receive communication
from the base station and determines the destination and retransmits this towards the
final destination.
In DE10027115 OFDM radio access technology nas relay stations to send uplink and
downlink signals from a centra! station onwards to user terminals with relay selection
based on transmission of measured signal data to the central station. In this document
also a relaying function is discussed.
WO0237771 discloses methods and systems using short link radios (SLRs) with mobile
terminals are disclosed. A mobile terminal having a SLR connects to other mobile
terminals having SLRs over a SLR link to increase the throughput, the QoS, or both of
the system. The mobile terminals establish a SLR link between a first mobile terminal
and a second mobile terminal. Both mobile terminals receive data transmitted from a
base station intended for the first mobile terminal The second mobile terminal then
retransmits the data received by the second mobile terminal to the first mobile terminal
via the SLR link.
EP1545076 discloses a method ana apparatus for improving a network. The network
uses the energy from a vehicle battery or vehicle generator to power an intermediate
transmitted device that receives the signal from a portable wireless device and
retransmits the information in the signal to a base station. The intermediate transmitter
device also receives information from the base station and retransmits the information to
the portable wireless device. The described system expands the areas in which a
wireless device may be used.
In US2003220074 a portable wireless system is described. The portable wireless system
has a controller that is operable to selectively configure the portable wireless system as

a personal electronic appliance or a third party wireless repeater that is configured to
relay wireless signals between a third party electronic appliance and a wireless network
Accordingly, the portable wireless system (e.g., a cellular telephone, a pager or a
personal digital assistant) may act as a wireless repeater for third party wireless
communications when the portable wireless system otherwise is not in use. In this way,
the portable wireless system increases the utilization of existing wireless network
infrastructures (e.g., a cellular telephone network) by making one or more unused
wireless channels available to other devices, A novel incentives-based business model
that encourages owners of portable electronic appliances to fully utilize existing wireless
network capacity also is described,
In "Position assisted reraying and handover in hybrid ad hoc WCDMA cellular systems"
by Jung Houn Yap et at at "Personal, indoor and mobile radio communications, 2C02,
the 13th IEEE International Symposium on Sept, 15-18, Piscataway, NJ, USA, IEEE, vol
5, 15 September 2002, pages 2194-2198, a solution with relaying mobile stations are
discussed,
In most of these solutions either a mobile ad-hoc network is used for transferring
communication data and/or packet inspection analysis is needed to determine the final
destination of the data.
This is provided by in a first aspect of the present invention, a communication unit for
communication within a communication network, the unit comprising a transceiver portion,
a processing unit and one or several interface arrangements for communication with one
or several peripheral devices, characterized in that the unit further comprises an
arrangement for transceiving at least parts of a signal to the communication network using
one or several of the interface arrangements for communication with the one or several
peripheral devices.
The communication unit may be a mobile communication unit, such as from the list of a
mobile phone, a personal digital assistant (PDA), a mobile computer, and a mobile music
platform.
The communication unit may comprise a processing unit, a storage unit, an interface unit,
at least one communication portion, a first communication interface, at least one second
communication interface, and an identification arrangement.

The processing unit may comprise additional instruction set for handling and processing
signals in respect to transmission and reception in the peripheral devices for
communicating with the communication network.
The first communication interface may handle a wireless interface used as a main
communication link. The second communication interface may be used for communication
with peripheral equipment.
The peripheral device may be at least one of a Personal Digital Assistant (PDA), a mobile
computer, a printer, a docking station, a battery charging device, storage device, music
platform device, telephones, set top boxes for digital audio and/or video, routers or
wireless data communication.
The second communication interface may comprise at least one of a wireless interface or
wire connection. The wire connection may be one or several of Ethernet, USB, Firewire,
optical, serial or parallel connections.
The first and second communication interface may use dissimilar wireless methods.
The communication unit and the peripheral devices may be arranged to act as one unit
having several antennas towards said communication network.
Another aspect of the present invention, a communication network is provided comprising:
a communication unit having a communication arrangement for communication with a
telecommunication network,
at least one peripheral unit communicatively connectable to the communication unit and
having means for communication with the telecommunication network, characterized in
that the at least one unit is arranged to mediate a communication signal between the
telecommunication network and the communication unit in the communication network.
The telecommunication network is one or several of GSM (Global System for Mobile
communication), GPRS (General Packet Radio Service), EDGE (Enhanced Data rates for

Global Evolution), UMTS (Universal Mobile Telecommunications System), CDMA (Code
Division Multiple Access), CDMA2000 or WCDMA (wideband CDMA).
The at least one transmitter and/or receiver arrangement may control mediation of the
signal. The communication unit may control mediation of the signal.
The communication unit and said peripheral units may receive the same type or even the
same radio signal. The communication unit and said peripheral units may be perceived as
one unit having multiple antennas.
Yet another aspect of the present invention, a device having means for receiving and/or
transmitting signals via a wireless interface and a connection arrangement for connection
to a mobile communication unit is provided, characterised in that the device comprises a
connection portion for connecting the wireless interface to the connection arrangement
and further to the mobile communication unit for connecting a signal from the wireless
interface to the mobile communication unit.
The device may be at least one of a Personal Digital Assistant (PDA), a mobile computer,
a printer, a docking station, a battery charging device, storage device, telephones, set top
boxes for digital audio and/or video, routers or wireless data communication.
The second communication arrangement may comprise at least on of an air interface or
wire connection. The wire connection is one or several of Ethernet, USB, optical, Firewire,
serial or parallel connections.
Still another aspect of the present invention, a method of enhancing one or several of
redundancy, bandwidth, capacity, error handling or payload in a communication network
is provided, comprising a communication unit for communication with a communication
station, and a number of devices having communication ability with the communication
centre, the method comprising the steps of:
receiving data by the devices over a radio channel,
providing the data to the communication unit through a communication interface,
processing the data received from the devices and signal from the communication station.

The method may further comprise the steps of:
establishing a communication link with the communication station
either by the communication unit or the communication station determining if an
communication quality parameter,
in an optional parallel or subsequent step, determining the quality of an established link
and making a decision to open an additional link to the devices connected to the
communication unit
connecting to the communication unit the devices,
establishing a communication link between the communication station the devices, and
routing data from the communication unit via the plurality of established communication
links to the communication station.
These and other aspects of the invention will be apparent from and elucidated with
reference to the embodiments described hereinafter.
BRIEF DESCRIPTION OF THE DRAWINGS
In the following the invention will be described in a non-limiting way and in more detail
with reference to exemplary embodiments illustrated in the enclosed drawings, in which:
Fig. 1 illustrates a network system according to the present invention;
Fig. 2 illustrates a mobile unit according to the present invention;
Fig. 3 illustrates schematically a flow diagram of a method according to the present
invention; and
Fig. 4 illustrates schematically a block diagram of a mobile unit according to the invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
Basically, the invention emulates a MIMO (Multiple Input Multiple Output) terminal which
allows using transmission schemes involving several radio channels, without incorporating
several antennas in same device, which will be detailed in the following description of the
exemplary embodiments.
Fig. 1 illustrates a communication network system 100 according to the present invention
including a mobile wireless unit 10, e.g. a mobile phone, a personal digital assistant
(PDA), a mobile computer, or a mobile music platform (e.g. an MP3 player), and a
number of different peripheral devices such as a personal digital assistant (PDA) 20, a
laptop 30, and a printer 40. The network system comprises a central communication
device 50 connected to a network 120. The communication device 10 may be connected
to a base station 50 or transceiver of the network.
The mobile unit 10 is arranged to communicate with the different peripheral devices 20,
30, and 40 using one or several of different available communication interfaces, for
instance a wireless (e.g. Bluetooth) link 60 to the PDA 20, a USB link 70 to the laptop 30,
and an Ethernet link 80 to the printer 40. The mobile unit 10 is arranged to mainly
establish a wireless communication link 90 with the central communication device 50
(such as a 2G, 2.5G, or 3G base station; "G" stands for generation, i.e. 2G means second
generation mobile telephony systems and so on) for transmitting and receiving
communication signals to/from the network 120 using any type of suitable link 110
between the central communication device 50 and the network 120. All devices including
the mobile unit 10 and the peripheral devices 20, 30, 40 utilize the same communication
type towards the central communication device 50 (e.g. a base station).
To employ the teachings of the invention, each peripheral device comprises an air
interface for RF communication with the network. The interface may be an internal or
external cell phone or the like. In the laptop, for example, a PC-card including a
transceiver can be used. The modern PDA's usually also include a cell phone ability and
so on. It should be noted that all devices able of communicating wirelessly with the
network, must have a unique identity within the local network formed by the mobile unit 10
and the different peripheral devices 20, 30, 40 in a conventional way. However, with
respect to the base station 50 all devices should have the same ID so as to provide a

single interface towards the base station 50. The base station then believes that it is
communicating with a single mobile unit 10 with a plurality of antennas.
In this manner a plurality of radio links 90 and radio channels may be established to the
central communication device 50 increasing the available bandwidth and/or providing
redundancy using peripheral devices 20, 30 and 40, acting as access converters or
access relays. These peripheral devices 20, 30 and 40 may be any type of equipment that
can communicate with the mobile unit 10, such as the mentioned PDA, laptop, or printer,
but also for instance a docking station, battery charging devices, other mobile units,
storage devices, music platform devices (e.g. an MP3 player), telephones, set top boxes
for digital audio and/or video, routers, wireless data communication devices (e.g. WLAN,
WPAN, and other similar devices).
The mobile unit 10 may communicate with different peripherals using a plurality of
communication links, such as IR (infrared), Bluetooth, WLAN (Wireless Local Area
Network), e.g. from the IEEE 802.11, 802.15, and 802.16 families, Ethernet, serial or
parallel communication, USB (Universal Serial Bus), Firewire (IEEE 1394), or optical
communication solutions. However, the communication links between the devices are not
limited to the above mentioned types, but any other suitable communication link solution
now existing or future developments may be used as understood by the person skilled in
the art.
The communication links between the mobile unit 10 and the peripheral devices 20, 30,
40 on one side and the central communication device 50 may be as mentioned earlier
using 2G, 2.5G, and 3G, but also future similar wireless communication links. One
important aspect of the invention is that the link between the mobile unit 10 and the
central communication device 50 is of the same type as between the peripheral devices
20, 30, 40 and the central communication device 50.
With the term 2G is meant GSM (Global System for Mobile communication), CDMA (Code
Division Multiple Access), or similar low data rate communication links, with 2.5G is meant
any type of intermediate data rate communication link such as GPRS (General Packet
Radio Service) and EDGE (Enhanced Data rates for Global Evolution), and with 3G is
meant higher data rate communication links such as UMTS (Universal Mobile
Telecommunications System), CDMA2000, or WCDMA (wideband CDMA).

Turning now to Fig. 2 illustrating a mobile unit 200 according to the present invention
comprises a processing unit 201, a storage unit 202, an interface unit 203, at least one
communication unit 204, a first communication interface 205 and a plurality of peripheral
communication interfaces 206, 207, and 208. The mobile unit further comprises an
identification arrangement 209 for uniquely identifying it in the network. The identification
arrangement can be a SIM (Subscriber Identity Module) card, IMSI (International Mobile
Subscriber Identity), or any other unique identifier. The processing unit 201 has instruction
sets for different operations and functions available in the mobile unit, e.g. for interfacing
with the user, address and phone register, coding and decoding of voice and/or data, and
many other normal operations and functions normally available in mobile units. However,
according to the present invention, additional instruction sets for handling and processing
the signals incoming from the peripheral devices received and relayed from the
communication network are provided. The storage unit 202 may be provided for storing
data permanently and/or temporarily, such as an address and phone register, user
information and so on. The interface unit 203 may be provided for interfacing with a user
via a keypad and an LCD screen or similar. The communication unit 204 may be provided
for handling communication related issues such as deciding on which communication
interface to use depending on type of data to send or receive (including digital data and
voice data). The first communication interface 205 handles a wireless interface used as a
main communication link, for instance 2.5G or 3G interface. The peripheral interface units
206, 207, 208 are used for communication with peripheral equipment, as described
earlier.
The peripheral equipment may be similarly built with similar components as the mobile
unit; however, it should be understood that operations and functions may differ slightly of
course depending on type of equipment.
Fig. 4 illustrates a schematic of the reception and transmission of signals by the mobile
unit 410. Thus, according to this embodiment, it is assumed that the system of the
invention acts as MIMO emulator, in which the peripheral devices act as additional
antennas. In this case peripheral are denoted with 420, 430 and 440. Each peripheral
device comprises an antenna 421, 431, 441 connected to a transceiver unit (not shown).
The mobile station comprises the interfaces 406-408 for communication with peripherals
as mentioned earlier. Moreover, the antenna 411 of the mobile unit is connected to the

processing unit through the interface 405. The processing arrangement 401 receives the
inputs from the interfaces and processes the signals. This is important that the signals are
so processed that the information derived from the signals provides correct result.
The peripherals can be tuned into different channels or same channel as the
communication unit depending on application and how the components interact. In a first
simple application of the present invention, it is utilized as a powerful diversity antenna
solution, where a plurality of antennas send the same signal and thus providing e.g. radio
signal diversity for handling small scale (microscopic) fading. This is useful for any type of
mobile communication solution, including GSM and upwards in the cell phone version
history. It is not necessary to demand any changes of the central communication device
side (e.g. base station) 50, but the invention may be implemented on the mobile unit 10
side only.
For systems where the essential parts of the system network (i.e. on both mobile unit and
base station side) are arranged according to the present invention, it is possible to allow
for multiple bit streams transmitted in parallel. The different bit streams are then separated
by synchronization codes (embedded into the data packets or signaling packets) that are
unique for each bit stream in order to be able to separate the bit streams from each other.
The separation is similar as may be found for direct sequence spread spectrum (DSSS)
techniques, where orthogonal (or semi-orthogonal) codes are used to separate different
data streams from each other. This type of enhanced data streaming is particularly useful
for the more recent cell phone infrastructure systems, e.g. 2.5G and 3G systems.
Turning now to Fig. 3 wherein a flow diagram illustrates steps of a method according to
the present invention. In a first step 301, the user establishes a communication link with
the base station through the communication device 50 and possibly further up the
communication link channel (depending on the type of the communication link) as
understood by the person skilled in the art. In step 302, either the mobile unit 10 or the
base station (or any other device on the base station side of the communication link)
determines if the available communication rate is sufficient or if there is a need for
increasing this rate. In an optional parallel or subsequent step 303, the system may
determine the quality of the established link (or links) and selects to open additional links
or channels to the devices connected to the mobile unit, to provide redundancy, multiple
streams, or error handling functions. In step 304, the peripheral units 20, 30, 40 are

connected to the mobile unit 10 or already established connections are used and in a
subsequent step 305 the mobile unit 10 establishes communication links with the central
communication device 50 via each peripheral unit each using a communication link with
the central communication device 50 in a similar manner as the mobile unit 10. The
mobile unit 10 routes data via the plurality of established communication links (via the
direct first link 90 and/or via links 60, 70, 80 to the peripheral units 20, 30, 40). The traffic
is routed to or from the mobile unit 10 according to a predetermined traffic shaping
function in order to use the peripheral devices 20, 30, 40 in a rate optimal manner, i.e.
depending on data rate of established links either between the mobile unit 10 and each
peripheral unit 20, 30, 40 and/or between each peripheral unit 20, 30, 40 and the central
communication device 50. The mobile unit may also use other parameters in the traffic
shaping function, e.g. battery levels of peripheral units, link quality (such as signal to
noise levels and/or data rate), type of peripheral unit, type of data, ownership of peripheral
units, and so on. In a last step 306, when the communication session is terminated, the
communication links not used are terminated.
In a similar manner, the base station 50 may use established links with the mobile unit 10
directly and/or together with peripheral units 20, 30, 40. There may also be provided a
traffic shaping function at the base station side of the communication link as described
above for the mobile unit using similar types of traffic shaping criteria.
It should be noted that the word "comprising" does not exclude the presence of other
elements or steps than those listed and the words "a" or "an" preceding an element do not
exclude the presence of a plurality of such elements. It should further be noted that any
reference signs do not limit the scope of the claims, that the invention may be at least in
part implemented by means of both hardware and software, and that several "means" or
"units" may be represented by the same item of hardware.
The above mentioned and described embodiments are only given as examples and
should not be limiting to the present invention. Other solutions, uses, objectives, and
functions within the scope of the invention as claimed in the below described patent
claims should be apparent for the person skilled in the art.

WE CLAIM :
1. A communication unit (10) for communication within a communication network, the
unit comprising a transceiver portion, a processing unit (201) and at least one
interface arrangement (206, 207, 208) for communication with at least one peripheral
device (20, 30, 40),
characterised in
that said processing unit (201) further comprises an arrangement for transceiving at
least parts of a signal to the communication network using at least one of said
interface arrangements for communication with said at least one peripheral device
(20, 30, 40) and arranged to transceive signals to the at least one peripheral device
in such a way that the at least one peripheral device will transcieve signals with the
same ID as the communication unit (10) in communications with a central
communication device (50),
2. The communication unit according to claim 1, wherein said communication unit is a
mobile communication unit,
3. The communication unit according to claim 1 or 2, wherein sa.d mobile
communication unit is at east one of a mobile phone, a personal digital assistant
(PDA), a mobile computer, and a mobile music platform.
4. The communication unit according to any of claims 1 to 3, comprising a processing
unit (201), a storage unit (202). an interface unit (203), at least one communication
portion (204), a first communication interface (205), at least one second
communication interface (206, 207, 208), and an identification arrangement (209).
5. The communication unit according to claim 4, wherein the processing unit (201)
comprises additional instruction set for handling and processing signals with respect
to transmission and reception in the peripheral devices for communication with said
communication network,
8 The communication unit according to claim 4, wherein said first communication
interface (206) handles a wireless interface used as a main communication link

7. The communication unit according to claim 4, wherein said second communication
interface (206, 207, 208) is used for communication with peripheral equipment
8. The communication unit according to claim 1, wherein said peripheral device is at
least one of a Personal Digital Assistant (PDA), a mobile computer a printer, a
docking station, a battery charging device, storage device, music platform device,
telephones, set top boxes for digital audio and/or video, routers or wireless data
communication.
9. The communication unit according to claim 4, wherein said second communication
interface comprises at least one of a wireless interface or wire connection.
10. The communication unit according to claim 9, wherein said wire connection is one or
several of Ethernet USB. Firewire/IEEE 1394, optical, serial or parallel connections.
11. The communication unit according to claim 4, characterized in that said first and
second communication interface use dissimilar wireless communication methods.
12. The communication unit according to claim 1, wherein said communication unit
and said peripheral devices are arranged to act as one unit having several antennas
towards said communication network
13. A communication network comprising;

• a mobile communication unit (10) having a communication arrangement for
communication with a telecommunication network,
• at least one peripheral unit (20, 30, 40) communicatively connectable to said
communication unit (10) and having means for communication with said
telecommunication network,
characterised in
that said at least one peripheral untt (20, 30, 40) is arranged to mediate a
communication signal between the telecommunication network and said
communication unit (10) in said communication network using an identify which is,

with respect to a central communication device (50) Identical to the identity of the
mobile communication unit {10}.
14, The communication network according to claim 13, wherein said telecommunication
network is one or several of GSM (Global System for Mobile communication), GPRS
(General Packet Radio Service), EDGE (Enhanced Data, rates for Global Evolution},
UMTS (Universal Mobile Telecommunications System), CDMA (Code Division
Multiple Access), CDMA2000 or WCDMA (wideband CDMA).
15, The communication network according to claim13 or 14, wherein said at least ore
transmitter and/or receiver arrangement controls mediation of said signal
16, The communication network according to claim 13 or 14, wherein said
communication unit controls mediation of said signal
17, The communication network according to any of claims 13-18, wherein said
communication unit and said peripheral units receive same type of radio signal from
said telecommunications network.
18, The communication network according to any of claims 17, wherein said
communication unit and said peripheral units receive same radio signal from said
telecommunications network.
19 The communication network according to any of claims 13-18, wherein said
communication unit and said peripheral units are perceived from said
telecommunications network as one unit having multiple antennas.
20. A device having means for receiving and/or transmitting signals via a wireless
interface and a connection arrangement for connection to a mobile communication
unit,
characterised in
that said device comprises a connection portion for connecting said wireless
interface to said connection arrangement and further to said mobile communication
unit for connecting a signal from said wireless interface to said mobile

communication unit and further arranged to identify itself in the wireless interface
using an identity which is, with respect to a central communication device (50),
identical to the identity of the mobile communication unit (10).
21. The device according to claim 20, wherein said device is at least one of a Persona!
Digital Assistant (PDA), a mobile computer, a printer, a docking station, a battery
charging device, storage device, telephones, set top boxes for digital audio and/or
video, route's or wireless data communication,
22. The device according to claim 20, wherein said second communication arrangement
comprises at least one of a wireless interface or wire connection.
23. The device according to claim 20, wherein said wire connection is one or several of
Ethernet, USB, optical, Firewire/IEEE 1394, serial or parallel connections.
24. A method of enhancing one or several of redundancy, capacity, bandwidth, error
handling or payload in a communication network including a mobile communication
unit for communication with a communication station, and a number of devices
having communication ability with said communication station, the method
comprising the steps of:
receiving data by said devices over a radio channel using an identity identical to
the mobile communication unit it communications with the communication
station.
providing said data to said communication unit through a communication
interface,
processing said data received from said devices and signal from said
communicatior station

The present invention relates to a communication unit (10), network and method for
communication within a communication network, the unit comprising a transceiver portion,
a processing unit and one or several interface arrangements for communication with one
or several peripheral devices. The unit further comprises an arrangement for transceiving
at least parts of a signal to the communication network using one or several of said
interface arrangements for communication with said one or several peripheral devices.

Documents:

http://ipindiaonline.gov.in/patentsearch/GrantedSearch/viewdoc.aspx?id=mgjBvxsXutTIQsacG3cerg==&loc=wDBSZCsAt7zoiVrqcFJsRw==

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Patent Number

272209

Indian Patent Application Number

2839/KOLNP/2008

PG Journal Number

14/2016

Publication Date

01-Apr-2016

Grant Date

22-Mar-2016

Date of Filing

14-Jul-2008

Name of Patentee

TELEFONAKTIEBOLAGET LM ERICSSON (PUBL)

Applicant Address

S-164 83 STOCKHOLM

Inventors:

#	Inventor's Name	Inventor's Address
1	DERNERYD, SVEN ANDERS GÖSTA	KVARNPIRSGATAN 4, S-417 64 GÖTEBORG
2	HARRYSSON, FREDRIK	ORMEBÄCKSGATAN 3A, S-416 78 GÖTEBORG
3	FRIDÉN. JONAS	HÖGADALSGATAN 2A, S-431 69 MÖLNDAL
4	MANHOLM, LARS	EKLANDAGATAN 8, S-412 55 GÖTEBORG
5	PETERSSON, SVEN OSCAR	ROTEVÄGEN 1, S-433 69 SÄVEDALEN
6	PETERSSON, OSCAR	ROTEVÄGEN 1, SE-433 69 SÄVEDALEN
7	JOHANNISSON, BJÖRN GUNNAR	KAPTENSGATAN 9, S-434 31 KUNGSBACKA

PCT International Classification Number

H04L 12/28

PCT International Application Number

PCT/EP2005/014091

PCT International Filing date

2005-12-22

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1			NA