Transmitter apparatus and receiver apparatus and base station making use of orthogonal frequency division multiplexing and spectrum spreading

US 6,937,558 B2
Filed: 02/26/2001
Issued: 08/30/2005
Est. Priority Date: 02/29/2000
Status: Expired due to Fees

First Claim

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1. A transmitter apparatus making use of an orthogonal frequency division multiplexing modulation and a spectrum spreading modulation in combination comprising:

an orthogonal frequency division multiplexing circuit which selectively modulates information signals to be transmitted by orthogonal frequency division multiplexing;

a spectrum spreading circuit which selectively performs a spectrum spreading modulation of said information signals to be transmitted; and

a transmission signal processing circuit which transfers said information signals which have been modulated by either said orthogonal frequency division multiplexing modulation or said spectrum spreading modulation to a receiver apparatus as a transmission signal, wherein, when said receiver apparatus and said transmitter apparatus are located so close to each other that the received signal level of said receiver apparatus is sufficient to maintain the communication between said receiver apparatus and said transmitter apparatus with signals which are modulated on the basis of said orthogonal frequency division multiplexing modulation but not modulated on the basis of said spectrum spreading modulation, said orthogonal frequency division multiplexing circuit performs the modulation of said information signals to be transmitted while said spectrum spreading circuit does not perform said spectrum spreading modulation of said information signals to be transmitted, and wherein, when said receiver apparatus and said transmitter apparatus are located so remote from each other that the received signal level of said receiver apparatus is not sufficient to maintain the communication between said receiver apparatus and said transmitter apparatus with signals which are modulated on the basis of said orthogonal frequency division multiplexing modulation but not modulated on the basis of said spectrum spreading modulation, said orthogonal frequency division multiplexing circuit does not perform said orthogonal frequency division multiplexing modulation of said information signals to be transmitted while said spectrum spreading circuit performs said spectrum spreading modulation of said information signals to be transmitted.

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Abstract

An improved transmitter apparatus, a receiver apparatus and a base station implemented with the transmitter and receiver apparatuses are described. These apparatuses and the base station serves to establish communication by making use of an orthogonal frequency division demultiplexing demodulation and an inverse spectrum spreading demodulation in combination. The communication coverage thereof can be expaned by making use of an orthogonal frequency division demultiplexing demodulation and an inverse spectrum spreading demodulation in combination.

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22 Claims

1. A transmitter apparatus making use of an orthogonal frequency division multiplexing modulation and a spectrum spreading modulation in combination comprising:
- an orthogonal frequency division multiplexing circuit which selectively modulates information signals to be transmitted by orthogonal frequency division multiplexing;
  
  a spectrum spreading circuit which selectively performs a spectrum spreading modulation of said information signals to be transmitted; and
  
  a transmission signal processing circuit which transfers said information signals which have been modulated by either said orthogonal frequency division multiplexing modulation or said spectrum spreading modulation to a receiver apparatus as a transmission signal, wherein, when said receiver apparatus and said transmitter apparatus are located so close to each other that the received signal level of said receiver apparatus is sufficient to maintain the communication between said receiver apparatus and said transmitter apparatus with signals which are modulated on the basis of said orthogonal frequency division multiplexing modulation but not modulated on the basis of said spectrum spreading modulation, said orthogonal frequency division multiplexing circuit performs the modulation of said information signals to be transmitted while said spectrum spreading circuit does not perform said spectrum spreading modulation of said information signals to be transmitted, and wherein, when said receiver apparatus and said transmitter apparatus are located so remote from each other that the received signal level of said receiver apparatus is not sufficient to maintain the communication between said receiver apparatus and said transmitter apparatus with signals which are modulated on the basis of said orthogonal frequency division multiplexing modulation but not modulated on the basis of said spectrum spreading modulation, said orthogonal frequency division multiplexing circuit does not perform said orthogonal frequency division multiplexing modulation of said information signals to be transmitted while said spectrum spreading circuit performs said spectrum spreading modulation of said information signals to be transmitted.
- View Dependent Claims (2, 3, 4)
- - 2. The transmitter apparatus as claimed in claim 1 wherein said orthogonal frequency division multiplexing circuit is provided with a serial-to-parallel converter which converts said information signals to be transmitted from a serial data sequence to a parallel data sequence, a modulator which serves to map said parallel data as converted by said serial-to-parallel converter onto symbols in the frequency domain, an inverse fast Fourier transform unit which performs the inverse fast Fourier transformation of said information signals as mapped and a parallel-to-serial converter which converts the output data sequence of the IFFT unit 16 from a parallel data sequence to a serial data sequence.
  - 3. The transmitter apparatus as claimed in claim 1 wherein said spectrum spreading circuit is provided with a spectrum spreading pattern generation circuit which generates a plurality of spectrum spreading patterns for use in said spectrum spreading modulation.
  - 4. The transmitter apparatus as claimed in claim 1 wherein said transmission signal processing circuit is provided with an adaptive array antenna and wherein, when said receiver apparatus and said transmitter apparatus are located so remote from each other that the received signal level of said receiver apparatus is not sufficient to maintain the communication between said receiver apparatus and said transmitter apparatus with signals which are modulated on the basis of said orthogonal frequency division multiplexing modulation but not modulated on the basis of said spectrum spreading modulation, the direction of said receiver apparatus relative to said transmitter apparatus is detected by making use of a transmission signal which is modulated by said spectrum spreading modulation, followed by directing a beam of the adaptive array antenna to said mobile station to increase the received signal level of said receiver apparatus and make it possible to perform the communication between said receiver apparatus and said transmitter apparatus by orthogonal frequency division multiplexing.

5. A transmitter apparatus making use of orthogonal frequency division multiplexing modulations and a spectrum spreading modulation in combination comprising:
- an orthogonal frequency division multiplexing circuit which performs a first orthogonal frequency division multiplexing modulation of information signals to be transmitted;
  
  a spectrum spreading circuit which selectively performs a spectrum spreading modulation of the output of said orthogonal frequency division multiplexing circuit; and
  
  a transmission signal processing circuit which transfers the output of said spectrum spreading circuit to a receiver apparatus as a transmission signal, wherein, when said receiver apparatus and said transmitter apparatus are located so close to each other that the received signal level of said receiver apparatus is sufficient to maintain the communication between said receiver apparatus and said transmitter apparatus with signals which are modulated by said first orthogonal frequency division multiplexing modulation but not modulated on the basis of said spectrum spreading modulation, said orthogonal frequency division multiplexing circuit performs said first orthogonal frequency division multiplexing modulation while said spectrum spreading circuit does not perform said spectrum spreading modulation of the output of said orthogonal frequency division multiplexing circuit, and wherein, when said receiver apparatus and said transmitter apparatus are located so remote from each other that the received signal level of said receiver apparatus is not sufficient to maintain the communication between said receiver apparatus and said transmitter apparatus with signals which are modulated by said first orthogonal frequency division multiplexing modulation but not modulated on the basis of said spectrum spreading modulation, said orthogonal frequency division multiplexing circuit performs a second orthogonal frequency division multiplexing modulation having a bandwidth which is narrower than that of said first orthogonal frequency division multiplexing modulation while said spectrum spreading circuit performs said spectrum spreading modulation of the output of said orthogonal frequency division multiplexing circuit.
- View Dependent Claims (6)
- - 6. The transmitter apparatus as claimed in claim 5 wherein said orthogonal frequency division multiplexing circuit serves to perform a phase shift keying modulation of said information signals.

7. A transmitter apparatus making use of orthogonal frequency division multiplexing modulations and a spectrum spreading modulation in combination comprising:
- a mapping circuit which serves to map information signals to be transmitted onto symbols in the frequency domain suitable for a first orthogonal frequency division multiplexing modulation;
  
  a spectrum spreading circuit which selectively performs a spectrum spreading modulation of the output of said mapping circuit;
  
  an orthogonal frequency division multiplexing circuit which performs said first orthogonal frequency division multiplexing modulation of the output signal of said spectrum spreading circuit; and
  
  a transmission signal processing circuit which transfers the output of said orthogonal frequency division multiplexing circuit to a receiver apparatus as a transmission signal, wherein, when said receiver apparatus and said transmitter apparatus are located so close to each other that the received signal level of said receiver apparatus is sufficient to maintain the communication between said receiver apparatus and said transmitter apparatus with signals which are modulated by said first orthogonal frequency division multiplexing modulation but not modulated on the basis of said spectrum spreading modulation, said orthogonal frequency division multiplexing circuit performs said first orthogonal frequency division multiplexing modulation while said spectrum spreading circuit does not perform said spectrum spreading modulation of the output of said mapping circuit, and wherein, when said receiver apparatus and said transmitter apparatus are located so remote from each other that the received signal level of said receiver apparatus is not sufficient to maintain the communication between said receiver apparatus and said transmitter apparatus with signals which are modulated by said first orthogonal frequency division multiplexing modulation but not modulated on the basis of said spectrum spreading modulation, said orthogonal frequency division multiplexing circuit performs a second orthogonal frequency division multiplexing modulation having a bandwidth which is narrower than that of said first orthogonal frequency division multiplexing modulation while said spectrum spreading circuit performs said spectrum spreading modulation of the output of said mapping circuit.
- View Dependent Claims (8)
- - 8. The transmitter apparatus as claimed in claim 7 wherein said transmission signal processing circuit is provided with an adaptive array antenna and wherein, when said receiver apparatus and said transmitter apparatus are located so remote from each other that the received signal level of said receiver apparatus is not sufficient to maintain the communication between said receiver apparatus and said transmitter apparatus with signals which are modulated on the basis of said orthogonal frequency division multiplexing modulation but not modulated on the basis of said spectrum spreading modulation, the direction of said receiver apparatus relative to said transmitter apparatus is detected by making use of a transmission signal which is modulated by said spectrum spreading modulation, followed by directing a beam of the adaptive array antenna to said mobile station to increase the received signal level of said receiver apparatus and make it possible to perform the communication between said receiver apparatus and said transmitter apparatus by said first orthogonal frequency division multiplexing modulations.

9. A receiver apparatus making use of an orthogonal frequency division demultiplexing demodulation and an inverse spectrum spreading demodulation in combination comprising:
- an inverse spectrum spreading circuit which selectively demodulates information signals transmitted from a transmitter apparatus and received by said receiver apparatus by performing inverse spectrum spreading demodulation of said information signals;
  
  an orthogonal frequency division demultiplexing circuit which selectively demodulates said information signals;
  
  wherein, when said receiver apparatus and said transmitter apparatus are located so close to each other that the received signal level of said receiver apparatus is sufficient to maintain the communication between said receiver apparatus and said transmitter apparatus with signals which are demodulated on the basis of said orthogonal frequency division demultiplexing demodulation but not demodulated on the basis of said inverse spectrum spreading demodulation, said orthogonal frequency division demultiplexing circuit performs the demodulation of information signals as received while said inverse spectrum spreading circuit does not perform said inverse spectrum spreading demodulation of said information signals as received, and wherein, when said receiver apparatus and said transmitter apparatus are located so remote from each other that the received signal level of said receiver apparatus is not sufficient to maintain the communication between said receiver apparatus and said transmitter apparatus with signals which are demodulated on the basis of said orthogonal frequency division multiplexing demodulation but not demodulated on the basis of said inverse spectrum spreading demodulation, said inverse spectrum spreading circuit performs said inverse spectrum spreading demodulation of said information signals as received while said orthogonal frequency division demultiplexing circuit does not perform said orthogonal frequency division demultiplexing demodulation.
- View Dependent Claims (10)
- - 10. The receiver apparatus as claimed in claim 9 wherein said orthogonal frequency division demultiplexing circuit serves also to perform a phase shift keying demodulation of said information signals as received.

11. A receiver apparatus making use of an orthogonal frequency division demultiplexing demodulation and an inverse spectrum spreading demodulation in combination comprising:
- an orthogonal frequency division demultiplexing circuit which demodulates information signals transmitted from a transmitter apparatus and received by said receiver apparatus on the basis of a first orthogonal frequency division demultiplexing demodulation;
  
  an inverse spectrum spreading circuit which selectively demodulates the output of said orthogonal frequency division demultiplexing circuit by performing inverse spectrum spreading demodulation of said information signals as demultiplexed; and
  
  a demapping circuit which serves to demap said information signals as inverse spread from symbols in the frequency domain suitable for said first orthogonal frequency division demultiplexing demodulation;
  
  wherein, when said receiver apparatus and said transmitter apparatus are located so close to each other that the received signal level of said receiver apparatus is sufficient to maintain the communication between said receiver apparatus and said transmitter apparatus with signals which are demodulated on the basis of said first orthogonal frequency division demultiplexing demodulation but not demodulated on the basis of said inverse spectrum spreading demodulation, said orthogonal frequency division demultiplexing circuit performs said first orthogonal frequency division demultiplexing demodulation of information signals as received while said inverse spectrum spreading circuit does not perform said inverse spectrum spreading demodulation of said information signals as received, and wherein, when said receiver apparatus and said transmitter apparatus are located so remote from each other that the received signal level of said receiver apparatus is not sufficient to maintain the communication between said receiver apparatus and said transmitter apparatus with signals which are demodulated on the basis of said orthogonal frequency division multiplexing demodulation but not demodulated on the basis of said inverse spectrum spreading demodulation, said inverse spectrum spreading circuit performs said inverse spectrum spreading demodulation of said information signals as received while said orthogonal frequency division demultiplexing circuit performs a second orthogonal frequency division demultiplexing demodulation having a bandwidth which is narrower than that of said first orthogonal frequency division demultiplexing demodulation.

12. A receiver apparatus making use of an orthogonal frequency division demultiplexing demodulation and an inverse spectrum spreading demodulation in combination comprising:
- an orthogonal frequency division demultiplexing circuit which selectively demodulates information signals transmitted from a transmitter apparatus and received by said receiver apparatus by performing an orthogonal frequency division demultiplexing demodulation of said information signals;
  
  an inverse spectrum spreading circuit which selectively demodulates the output of said orthogonal frequency division demultiplexing circuit by performing inverse spectrum spreading demodulation of the information signals as received;
  
  a demapping circuit which serves to selectively demap said information signals as demodulated by said orthogonal frequency division demultiplexing demodulation from symbols in the frequency domain suitable for said orthogonal frequency division demultiplexing demodulation;
  
  wherein, when said receiver apparatus and said transmitter apparatus are located so close to each other that the received signal level of said receiver apparatus is sufficient to maintain the communication between said receiver apparatus and said transmitter apparatus with signals which are demodulated on the basis of said first orthogonal frequency division demultiplexing demodulation but not demodulated on the basis of said inverse spectrum spreading demodulation, said orthogonal frequency division demultiplexing circuit performs the demodulation of information signals as received while said inverse spectrum spreading circuit does not perform said inverse spectrum spreading demodulation of said information signals as received, and wherein, when said receiver apparatus and said transmitter apparatus are located so remote from each other that the received signal level of said receiver apparatus is not sufficient to maintain the communication between said receiver apparatus and said transmitter apparatus with signals which are demodulated on the basis of said orthogonal frequency division multiplexing demodulation but not demodulated on the basis of said inverse spectrum spreading demodulation, said inverse spectrum spreading circuit performs said inverse spectrum spreading demodulation of said information signals as received while said orthogonal frequency division demultiplexing circuit does not perform said orthogonal frequency division demultiplexing demodulation.
- View Dependent Claims (13, 14, 15)
- - 13. The receiver apparatus as claimed in claim 12 wherein said inverse spectrum spreading circuit is provided with a spectrum spreading pattern generation circuit which generates a plurality of spectrum spreading patterns for use in said inverse spectrum spreading demodulation.
  - 14. The receiver apparatus as claimed in claim 12 wherein said orthogonal frequency division demultiplexing circuit is provided with a serial-to-parallel converter which converts the information signals as received from a serial data sequence to a parallel data sequence and a fast Fourier transform unit which performs the fast Fourier transformation of said information signals as converted to said parallel data sequence.
  - 15. The receiver apparatus as claimed in claim 13 wherein said inverse spectrum spreading circuit makes use of different spectrum spreading patterns for different transmitter apparatuses.

16. A base station which serves to establish communication with at least one mobile station located in a communication area where said base station is responsible for communication comprising:
- a transmitter apparatus capable of transmitting information signals in a first transmission mode which has a first transmission speed and a first gain and transmitting information signals in a second transmission mode which has a second transmission speed which is lower than said first transmission speed and a second gain which is greater than said first gain;
  
  a receiver apparatus capable of receiving a first reception mode which receives information signals having been transmitted in said first transmission mode and receiving a second reception mode which receives information signals having been transmitted in said second transmission mode;
  
  wherein, when said mobile station and said base station are located so close to maintain communication between said mobile station and said base station in said first transmission mode and said first reception mode, said base station maintains communication between said mobile station and said base station in said first transmission mode and said first reception mode, wherein, when said mobile station and said base station are located too remote to maintain communication between said mobile station and said base station in said first transmission mode and said first reception mode, said base station establishes communication between said mobile station and said base station in said second transmission mode and said second reception mode.
- View Dependent Claims (17, 18, 19)
- - 17. The base station as claimed in claim 16 wherein said base station makes use of said second transmission mode and said second reception mode for communication with a mobile station which is located in an overlapping area between said communication area where said base station is responsible for communication and an adjacent area where an adjacent base station is responsible for communication.
  - 18. The base station as claimed in claim 17 wherein said base station and an adjacent base station thereto share the same communication resources for said first transmission mode and said first reception mode respectively and make use of separate communication resources for said second transmission mode and said second reception mode respectively.
  - 19. The base station as claimed in claim 16 wherein said base station is provided with an adaptive array antenna and wherein, when said mobile station and said base station are located so remote from each other that the received signal level of said base station is not sufficient to maintain the communication between said mobile station and said base station in said first transmission mode and said first reception mode, said base station establishes communication with said mobile station in said second transmission mode and said second reception mode, detects the direction of said mobile station relative to said base station, directing a beam of the adaptive array antenna to said mobile station in order to improve the gain in said first transmission mode and said first reception mode, and then establishing communication with said mobile station in said first transmission mode and said first reception mode.

20. A base station which serves to establish communication with at least one mobile station located in a communication area where said base station is responsible for communication comprising:
- a transmitter transmitting information signals in a first transmission mode which has a first transmission speed and a first gain and transmitting information signals in a second transmission mode which has a second transmission speed which is lower than said first transmission speed and a second gain which is greater than said first gain;
  
  wherein, when said mobile station and said base station are located so close to maintain communication between said mobile station and said base station in said first transmission mode, said base station maintains communication between said mobile station and said base station in said first transmission mode, wherein, when said mobile station and said base station are located too remote to maintain communication between said mobile station and said base station in said first transmission mode, said base station establishes communication between said mobile station and said base station in said second transmission mode.
- View Dependent Claims (21, 22)
- - 21. The base station as claimed in claim 20 wherein said base station makes use of said second transmission mode for communication with a mobile station which is located in an overlapping area between said communication area where said base station is responsible for communication and an adjacent area where an adjacent base station is responsible for communication.
  - 22. The base station as claimed in claim 20 wherein said base station is provided with an adaptive array antenna and wherein, when said mobile station and said base station are located so remote from each other that the received signal level of said base station is not sufficient to maintain the communication between said mobile station and said base station in said first transmission mode, said base station establishes communication with said mobile station in said second transmission mode, detects the direction of said mobile station relative to said base station, directing a beam of the adaptive array antenna to said mobile station in order to improve the gain in said first transmission mode, and then establishing communication with said mobile station in said first transmission mode.

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Current Assignee
Kabushiki Kaisha Toshiba (Toshiba Corporation)
Original Assignee
Kabushiki Kaisha Toshiba (Toshiba Corporation)
Inventors
Wakutsu, Takashi
Primary Examiner(s)
Qureshi, Afsar

Application Number

US09/791,795
Publication Number

US 20010021182A1
Time in Patent Office

1,646 Days
Field of Search

370/203, 370/204, 370/208, 370/330, 370/337, 370/338, 370/344, 370/436, 370/482, 375/146, 375/147, 375/150, 375/130, 375/261, 375/267, 375/298, 375/299, 375/316, 455/454, 455/69, 455/562
US Class Current

370/208
CPC Class Codes

H04B 7/086   using weights depending on ...

H04L 1/0003   by switching between differ...

H04L 5/023   Multiplexing of multicarrie...

Transmitter apparatus and receiver apparatus and base station making use of orthogonal frequency division multiplexing and spectrum spreading

First Claim

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Abstract

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Transmitter apparatus and receiver apparatus and base station making use of orthogonal frequency division multiplexing and spectrum spreading

First Claim

1 Assignment

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Accused Products

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Abstract

80 Citations

22 Claims

Specification

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