USRE44089E1 - Radio system and methods for duplex operation - Google Patents

Radio system and methods for duplex operation Download PDF

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Publication number
USRE44089E1
USRE44089E1 US12/657,964 US65796497A USRE44089E US RE44089 E1 USRE44089 E1 US RE44089E1 US 65796497 A US65796497 A US 65796497A US RE44089 E USRE44089 E US RE44089E
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frame
subframe
addresses
transmission
message
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Kalle Ahmavaara
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Google Technology Holdings LLC
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Motorola Mobility LLC
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04JMULTIPLEX COMMUNICATION
    • H04J4/00Combined time-division and frequency-division multiplex systems
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04BTRANSMISSION
    • H04B1/00Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
    • H04B1/38Transceivers, i.e. devices in which transmitter and receiver form a structural unit and in which at least one part is used for functions of transmitting and receiving
    • H04B1/40Circuits
    • H04B1/54Circuits using the same frequency for two directions of communication
    • H04B1/56Circuits using the same frequency for two directions of communication with provision for simultaneous communication in two directions
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • H04L1/12Arrangements for detecting or preventing errors in the information received by using return channel
    • H04L1/16Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
    • H04L1/18Automatic repetition systems, e.g. Van Duuren systems

Definitions

  • the invention relates to radio systems and particularly to the effective processing of interactive traffic in a radio band.
  • a frequency band reserved for a radio system is allocated to users as radio channels in accordance with the selected multiple access technique (Multiple Access).
  • a radio channel is a frequency band employed in a radio connection or a portion of the frequency band separated for example by means of time or a user-specific code.
  • radio channels are usually frequency channels, whereby a dedicated frequency band is reserved for each radio connection, the frequency band being a part of the frequency resource in the system.
  • This technique is called frequency division multiple access (FDMA).
  • FDMA frequency division multiple access
  • TDMA time division multiple access
  • CDMA Code division multiple access
  • CDMA is a multiple access technique implemented by means of a spread spectrum technique wherein radio transmissions employing the same frequency band are coded in such a way that signals for a particular receiver party can be received only at particular receivers.
  • a radio system based telecommunication connection can be a simplex or a duplex connection.
  • the simplex connection is a telecommunication connection wherein the user can only either transmit or receive information simultaneously.
  • the duplex connection is a telecommunication connection wherein the user can transmit and receive information simultaneously.
  • a semiduplex connection is a combination of the two aforementioned connections, i.e. a telecommunication connection wherein one party employs the simplex connection and the other party employs the duplex connection.
  • the duplex connection is often implemented by employing different transmission and reception frequencies (frequency division duplex, FDD).
  • FDD frequency division duplex
  • the difference between the transmission frequency and the reception frequency is called a duplex spacing.
  • Most digital mobile communication systems such as the GSM (Global System for Mobile Communications) and DCS-1800 (Digital Cellular System for 188 MHz) are based upon time division multiple access (TDMA) implemented by a FDD telecommunication connection.
  • TDMA time division multiple access
  • New PCS Personal Communication System
  • CDMA Code division multiple access
  • TDD time division duplex
  • FDMA frequency division multiple access
  • TDMA time division multiple access
  • a channel from the mobile station to the base station is called an uplink transmission path and, correspondingly, a channel from the base station to the mobile station is called a downlink transmission path.
  • a radio connection is based on successive data frames, the data frames being constructed according to the selected multiple access technique of for example adjacent frequency bands and time periods.
  • the part of the frame which can be unambiguously referred to by means of selected parameters (such as a frame frequency band, a time slot number or a code) is called a frame address.
  • a radio channel is hereinafter taken to mean a data transmission implemented in adjacent frames in one or several determined frame addresses. The properties of the radio channel communication can be affected by allocating the frame addresses. By establishing a radio channel composed of several frame addresses, more data transmission capacity will be obtained for example for the data transmission.
  • An interactive data transmission is a duplex communication where messages in the uplink and downlink transmission paths interact with each other.
  • An example is given here illustrating a channel allocation between the mobile station and the base station.
  • the uplink transmission path is hereinafter referred to as the uplink and the downlink transmission path is referred to as the downlink.
  • the base station informs about free addresses in a message transmitted on a Y channel (Yell) in the downlink direction.
  • a mobile station desiring to establish a connection transmits a random access (RA) message in the uplink direction on a channel selected among the channels indicated to be free by the Y channel, the RA message including the desire to establish a connection.
  • RA random access
  • the RA message is responded by an access grant (AG) message in the downlink direction, the AG message informing the mobile station about the frame address or frame addresses to be employed in the radio channel to be established.
  • AG access grant
  • the above described message transmission is accomplished without problems when traffic intensity is low enough, the downlink messages having enough time to react with the previous uplink messages by means of the suitable selection of the frame addresses.
  • the frame becomes full with the increase of traffic, whereby the messages relating to the interactive connection are located within the entire frame matrix and all the message addresses cannot then be selected in a suitable way. Consequently, the downlink messages cannot always be positioned in such frame addresses wherein the messages would have enough time to react with the messages submitted in the previous message in the uplink direction or, on the other hand, where there would be enough time to transmit information useful for all the subsequent frames in the uplink direction.
  • the use of the channel resources in this way is ineffective and radio spectrum is wasted in the implementation of the interactive connection.
  • the object of the present invention is to introduce a method which provides a simple way to avoid the above described problem relating to the use of the channel resource in the implementation of an interactive telecommunication connection.
  • This object is achieved by the method for the interactive communication in a full-duplex radio band comprising an uplink direction and a downlink direction.
  • the method is characterized by
  • the invention also relates to the methods according to claim 2 , 3 , or 4 and radio systems according to claims 7 , 8 and 9 .
  • one FDD frame hereinafter referred to as a superframe
  • a superframe is composed of at least two subframes that are time-duplexed with respect to the corresponding subframes in the reverse transmission direction.
  • Interactive connection messages are formed on the basis of the previous subframe message or subframe messages in the reverse transmission direction.
  • the allocation of free channels in the downlink direction in association with the channel allocation is based upon the information within the entire previous uplink frame.
  • the frame addresses detected to be free on the basis of the previous uplink subframe are informed in the downlink subframe by means of virtual time-duplexing according to the invention.
  • the system has then enough time to take into account all the random access messages from the previous uplink subframe and to inform about the free channels on the basis of this information in the next corresponding downlink subframe.
  • a Y channel message in the downlink direction cannot respond to all the uplink frame messages, whereby the corresponding allocation message can be delayed by at least one frame.
  • FIG. 1 illustrates a frame structure and channels of a radio interface
  • FIGS. 2 and 3 illustrate uplink and downlink radio bands, their frame division and two different interactive traffic situations
  • FIG. 4 shows a frame structure in uplink and downlink bands according to the primary embodiment of the invention
  • FIG. 5 illustrates interactive communication in association with a frame structure as shown in FIG. 4 .
  • FIG. 6 illustrates a data transmission acknowledgement in association with a frame structure as shown in FIG. 4 .
  • FIG. 7 illustrates interactive communication in the case where the superframe of the invention is composed of three subframes
  • FIG. 8 is a diagram illustrating a radio system comprising a base station and a mobile station.
  • FIG. 1 illustrates a radio interface based on data frames and traffic channel allocation in a frame system.
  • a y-direction drawn in FIG. 1 shows frequency differentiation, i.e. each overlapping y level (y 1 , y 2 , y 3 ) illustrates one frequency segment.
  • an x-direction drawn in FIG. 1 shows time differentiation, i.e. each adjacent x level (x 1 , x 2 , x 3 , x 4 ) illustrates one time slot.
  • a radio channel can be unambiguously identified by an address (for example x 3 , y 2 ) addressing one rectangle in a frame shown in FIG. 1 .
  • a channel is composed of information transmitted in a determined frame address of one frame or successive frames (F 1 , F 2 , F 3 , F 4 ).
  • the frame in FIG. 1 shows a data frame associated with a substantially one transmission direction.
  • a reverse transmission direction is composed of a structurally identical frame in another frequency segment.
  • FIG. 2 illustrates channel arrangement for one frequency band, (one layer in the y-direction in FIG. 1 ) in the uplink and downlink directions (UL and DL respectively).
  • a duplex frequency spacing (dF) exists between the UL band separated from the uplink frame and the DL band separated from the downlink frame and, in prior art solutions, the downlink frames have been delayed by some time slots (dT) compared with the uplink frames.
  • dT time slots
  • the duplex spacing is 45 MHz and the numbering of downlink frame time slots is delayed by three time slots compared with the uplink frames.
  • An interactive radio connection is a duplex data transmission where a message submitted in one transmission direction affects the corresponding message transmitted in the reverse transmission direction.
  • Signalling of a mobile station and a base station during the channel allocation and different types of acknowledgement messages in the data transmission are given as examples of interactive connections.
  • a channel is not reserved subscriber-specifically for the whole session (for example a call), but the channel is allocated to the subscriber for the time periods during which there is an actual need for the data transmission (for example speech or data transmission). In that case, channel allocation takes place before each data transmission transaction.
  • FIG. 2 An interactive radio connection is illustrated in FIG. 2 by a circle in a UL frame representing an interactive message and by a triangle in a DL frame representing the corresponding message.
  • the interactive data transmission is composed of successive circles and triangles, the circle being a response to the triangle, the triangle being a response to the circle etc.
  • the interactive message transmission is successful by means of an appropriate selection of frame addresses, and the interactive message can be established in both transmission directions on the basis of the received messages.
  • the frame begins to fill up because of the increasing communication or a greater amount of time slots reserved for the subscriber, the situation becomes more complicated.
  • FIG. 3 illustrates a situation where the interactive message in the downlink direction (marked with a triangle) shown in FIG. 2 is composed on the basis of the messages submitted in the entire uplink frame.
  • a situation exists for example in connection with an access grant (AG) message given in said DL frame.
  • the base station informs about free addresses in a Y channel message in the downlink direction.
  • a mobile station desiring to establish a connection in the uplink direction selects a channel which has been informed to be free and sends a random access (RA) message in the uplink direction on said channel informing in the message about its desire to establish a connection.
  • the random access message is responded by the access grant (AG) message in the downlink direction informing the mobile station about the frame address or the frame addresses to be used on the radio channel to be established.
  • AG access grant
  • the frame will become full with the increase of communication, i.e. messages associated with the interactive connection are located within the entire frame matrix. Consequently, the downlink messages have no time to react with the uplink messages submitted in the previous message, and, on the other hand, they have no time to transmit the information to be utilized in the uplink frame. Using the channel resources in such a way is ineffective and radio spectrum is wasted in the establishment of the interactive connection.
  • FIG. 4 illustrates the solution of the invention. It is to be noted that only the parameters essential for the invention will be described herein. Thus, although for example timing advance is not dealt with in this connection, all the specifications relating to a normal transmission must be taken into account in the final solution.
  • FIG. 4 illustrates a first embodiment of the invention wherein a radio connection is based upon uplink and downlink superframes.
  • Each superframe consists of 24 separate frame addresses being divided into two subframes f 1 and f 2 which both comprise 12 frame addresses.
  • the transmission of the UL and DL superframes is timed in such a way that the transmission occurs simultaneously, i.e. the delay between different transmission directions is zero.
  • the subframes uf 1 /df 2 and uf 2 /df 1 in the superframes usf and dfs are time-duplexed in such a way that the subframe transmissions occur at different times.
  • free channels for the subframe uf 2 of the UL superframe UF 1 are notified on the Y channel of the subframe df 1 in the DL superframe DF 1 and, correspondingly, free channels for the next subframe uf 1 of the UL superframe UF 2 are notified on the Y channel of the subframe df 2 in the DL superframe DF 1 .
  • an example of the radio system 100 is shown having a base station 102 and a mobile station 104.
  • the base station 102 and mobile station 104 have subsystems 106, 108 to perform various features. It is assumed that athe mobile station 102 of the radio system 100 listens to the Y channel in the subframe df 1 of the DL superframe DF 1 .
  • the mobile station selects a free channel submitted on the Y channel, such as CH 1 , and sends a random access (RA) message on the free channel CH 1 being selected in the subframe uf 2 of the UL superframe UF 1 .
  • a The base station 104 responds by an access grant (AG) message in the subframe df 1 of the DL superframe DF 2 .
  • AG access grant
  • the AG message informs the mobile station that the channel CH 1 has been reserved for it from the next subframe.
  • the mobile station starts transmitting on the channel CH 1 in the subframe uf 2 of the UL superframe UF 2 . Since CH 1 is now allocated to said mobile station, it is no longer announced through the Y channel in the subframe df 1 of the DL superframe DF 2 .
  • the channel allocation takes place by means of the subframe pair df 1 and uf 2 .
  • a similar separate channel allocation can occur simultaneously (but in reverse phase) by means of another subframe pair df 2 and uf 1 . It is possible that the same mobile station participates in the channel allocation in both subframe pairs.
  • Interactive acknowledgement messages occur in each sub-frame of a superframe, preferably in the middle of the subframe, whereby the system has enough time to react with the messages.
  • Traffic channels (such as CH 1 ) occur only once in one superframe, i.e. in the present example only in the subframe uf 2 .
  • two connection layers are formed in the frame structure for the interactive messages, one of which is composed of the subframe uf 1 of the UL superframes and the subframe df 2 of the DL superframes, and correspondingly, the other is composed of the subframe uf 2 of the UL superframes and the subframe df 1 of the DL superframes.
  • FIG. 5 illustrates the connection layers which are formed in the frame structure.
  • solid arrows illustrate interactive communication at a connection level df 1 -uf 2
  • dashed arrows illustrate communication at a connection level df 2 -uf 1 . It is possible that the same mobile station participates in communication at both connection levels.
  • the allocation situation for each UL subframe is already known in the previous DL subframe and the interactive message concerning each frame address can be transmitted before the next transmission of the frame address in the superframe.
  • the AG message relating to the RA message submitted in the channel CH 1 in the subframe of the superframe UF 1 is already submitted in the subframe df 1 of the superframe DF 2 , whereby communication on the channel CH 1 can already start in the subframe uf 2 of the superframe UF 2 , the subframe uf 2 being the frame wherein the channel CH 1 occurs next.
  • Time-duplexing the connection layer ensures that the information submitted on the Y channel always contains exact information about the free channels in the next subframe.
  • one AG message in the downlink direction can be employed for responding to all the RA messages at the same connection layer and the AG message can be transmitted to the mobile station before the allocated frame address or allocated frame addresses occur next time in the superframe.
  • the example is illustrated in FIG. 6 .
  • a channel CH 2 composed of two UL-frame frame addresses has been reserved for a subscriber for the data transmission.
  • the connection is maintained and the mobile station waits for an ARQ acknowledgement message from the base station.
  • the base station gives the acknowledgement message in the subframe db 1 of a DL superframe DF 2 and at the same time informs in a Y message that the frame addresses allocated to the channel CH 2 are free.
  • the base station sends a message informing about a transmission failure in the subframe df 1 of the superframe DF 2 , whereby the mobile station can continue transmission on the channel CH 2 .
  • interactive information can be transmitted before the actual traffic channels occur next time in the superframe.
  • Interactive acknowledgement messages are preferably placed in the middle of the frame, whereby the system is given enough time to react with the information submitted in the previous subframe. If more time is needed in the processing of the messages in the UL and DL directions, as is the case in the systems based on CDMA multiple access technique where the duration of the message comprises the entire frame cycle, the superframe can be composed of more than one subframe.
  • FIG. 7 illustrates the solution of the invention in the case of three subframes (connection layers).
  • the first connection layer is composed of subframes uf 2 and df 3
  • the second connection layer is composed of subframes uf 3 and df 1
  • the third connection layer is composed of subframes uf 1 and df 2 . Reaction time has been increased in the case presented in FIG. 7 by delaying the uplink transmission with respect to the downlink transmission by half a frame cycle.
  • the principles of the invention can also be applied in the conventional time division duplex TDD where the signals in different directions are transmitted interleaved in time on the same transmission channel.
  • the frame in both directions can be composed of two or more subframes, the subframes in turn forming one or more connection layers.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Mobile Radio Communication Systems (AREA)
  • Transceivers (AREA)
  • Bidirectional Digital Transmission (AREA)
  • Small-Scale Networks (AREA)
  • Radio Relay Systems (AREA)
  • Input Circuits Of Receivers And Coupling Of Receivers And Audio Equipment (AREA)
US12/657,964 1996-12-31 1997-12-30 Radio system and methods for duplex operation Expired - Lifetime USRE44089E1 (en)

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FI965299A FI105371B (fi) 1996-12-31 1996-12-31 Radiojärjestelmä ja menetelmiä kaksisuuntaisen radioyhteyden muodostamiseksi
FI965299 1996-12-31
US09/331,410 US6747966B1 (en) 1996-12-31 1997-12-30 Radio system and methods for duplex operation
US12/657,964 USRE44089E1 (en) 1996-12-31 1997-12-30 Radio system and methods for duplex operation
PCT/FI1997/000833 WO1998032236A1 (en) 1996-12-31 1997-12-30 Radio system and methods for duplex operation

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FI110467B (fi) * 1997-08-19 2003-01-31 Nokia Corp Informaation siirto tietoliikennejärjestelmässä
US8315210B2 (en) 2002-08-13 2012-11-20 Koninklijke Philips Electronics N.V. ARQ system with status and packet acknowledgement
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JP2008017341A (ja) 2006-07-07 2008-01-24 Ntt Docomo Inc 無線通信装置および無線通信方法
CN101809894B (zh) * 2006-09-11 2013-06-19 高通股份有限公司 在异步方式下支持半双工终端的方法和装置
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US6388996B1 (en) 1996-09-30 2002-05-14 Rolf Biedermann Base station with rapid handover function of a cellular TDMA/FDMA mobile radio system, particularly of a cellular DECT system
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20160081091A1 (en) * 2013-05-27 2016-03-17 Lg Electronics Inc. Method for allocating resource for device for wireless communication and base station for same
US9848427B2 (en) * 2013-05-27 2017-12-19 Lg Electronics Inc. Method for allocating resource for device for wireless communication and base station for same

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EP0956654B1 (en) 2007-06-27
JP2001507896A (ja) 2001-06-12
FI965299A0 (fi) 1996-12-31
FI965299A (fi) 1998-07-01
EP1819063B1 (en) 2012-10-31
EP1819063A1 (en) 2007-08-15
EP0956654B2 (en) 2010-08-11
DE69737868D1 (de) 2007-08-09
WO1998032236A1 (en) 1998-07-23
ES2394221T3 (es) 2013-01-23
ATE365999T1 (de) 2007-07-15
USRE41178E1 (en) 2010-03-30
AU5323898A (en) 1998-08-07
DE69737868T2 (de) 2008-03-06
US6747966B1 (en) 2004-06-08
EP0956654A1 (en) 1999-11-17
FI105371B (fi) 2000-07-31
DE69737868T3 (de) 2013-05-16

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