Method and system for testing the functioning of data communication in a radio apparatus
First Claim
1. A method for testing the functioning of downlink data communication in a mobile station equipped for receiving a signal in the downlink direction and for sending a signal the uplink direction, the method comprising the steps of:
- receiving a test signal in the downlink direction, generating a pseudorandom bit sequence at the mobile station in order to produce a known form of the test signal;
comparing the received test signal to the known form of the test signal, producing and temporarily storing information about errors which were detected in the received test signal during the comparing step; and
sending in the uplink direction a signal representing the stored information about errors.
1 Assignment
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Accused Products
Abstract
To test the functioning of downlink data communication a mobile station comprises means (301, 302, 303, 304, 326) for receiving a signal in the downlink direction and means (331, 310, 311, 312, 313) for sending a signal uplink. It receives a test signal in the downlink direction (301, 302, 602) and compares the received test signal to a known form of the test signal (208, 603). In addition, the mobile station stores information produced by the comparison about errors detected in the received test signal (209) and sends uplink a signal representing the information stored (312, 313, 604).
36 Citations
19 Claims
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1. A method for testing the functioning of downlink data communication in a mobile station equipped for receiving a signal in the downlink direction and for sending a signal the uplink direction, the method comprising the steps of:
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receiving a test signal in the downlink direction, generating a pseudorandom bit sequence at the mobile station in order to produce a known form of the test signal;
comparing the received test signal to the known form of the test signal, producing and temporarily storing information about errors which were detected in the received test signal during the comparing step; and
sending in the uplink direction a signal representing the stored information about errors. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
receiving a command of a certain first protocol level in the downlink direction, in response to the received command, setting the mobile station into a test mode where no notification about an established bi-directional communication link is sent to protocol levels higher than said first protocol level.
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5. A method according to claim 4, wherein said first protocol level is a Layer 3 RR level.
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6. A method according to claim 1 wherein in a mobile station equipped for converting a downlink signal to baseband and for demodulating, decrypting and channel decoding the signal converted to baseband, the step of comparing the received test signal to a known form of the test signal is performed after demodulation and decryption but prior to channel decoding.
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7. A method according to claim 1 wherein in a mobile station equipped for converting a downlink signal to baseband and for demodulating, decrypting and channel decoding the signal converted to baseband, the step of comparing the received test signal to a known form of the test signal is performed after demodulation, decryption and channel decoding.
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8. The method of claim 1 further comprising:
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using an uplink data connection for the uplink direction; and
using a downlink data connection for the downlink direction;
wherein the uplink data connection is not associated with the downlink data connection.
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9. The method of claim 1 wherein the step of sending in the uplink direction further comprises using a short-range wireless data link to send the signal representing the stored information about errors.
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10. A method for testing the functioning of downlink data communication in a cellular radio system, comprising the steps of:
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sending a test signal from a base station to at least one mobile station, receiving the test signal sent by the base station at a mobile station, generating a pseudorandom bit sequence at the mobile station in order to produce a known form of the test signal, comparing the test signal received at the mobile station to the known form of the test signal, producing and temporarily storing at the mobile station information about errors which were detected in the received test signal during the comparing step, sending information representing the stored information about errors from the mobile station to a base station, receiving the information sent by the mobile station at a base station, and storing the information received by the base station in the cellular radio system. - View Dependent Claims (11)
sending a test signal from a large number of base stations to a large number of mobile stations, receiving information sent by a large number of mobile stations at a large number of base stations, storing the information received by the base stations at a control station of the cellular radio system, and producing, at the control station, information representing the quality of downlink data communication in the cellular radio system.
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12. A mobile station of a cellular radio system, comprising:
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reception means for receiving a signal in the downlink direction, transmission means for sending a signal in the uplink direction, comparison means for comparing a received test signal to a known form of the test signal, generating means for generating a pseudorandom bit sequence in order to produce the known form of the test signal, means for producing and temporarily storing information about errors which were detected in the received test signal by said comparison means, and uplink sending means for sending in the uplink direction a signal representing the stored information about errors. - View Dependent Claims (13, 14)
downconversion means for converting received downlink data to baseband, a demodulator for demodulating the data converted to baseband, decrypting means for decrypting the demodulated data, a channel decoder for channel decoding the demodulated and decrypted data, a channel encoder for channel encoding uplink data, encrypting means for encrypting the channel encoded uplink data, a modulator for modulating the encrypted channel encoded uplink data onto baseband oscillations, and upconversion means for converting the modulated baseband oscillations onto a transmission frequency for transmitting, wherein said comparison means, said means for producing and temporarily storing information about errors and said uplink sending means are arranged to establish a coupling from the output of the decrypting means to the input of the encrypting means. -
14. A mobile station according to claim 12, comprising
downconversion means for converting received downlink data to baseband, a demodulator for demodulating the data converted to baseband, decrypting means for decrypting the demodulated data, a channel decoder for, channel decoding the demodulated and decrypted data, a channel encoder for channel encoding uplink data, encrypting means for encrypting the channel encoded uplink data, a modulator for modulating the encrypted channel encoded uplink data onto baseband oscillations, and upconversion means for converting the modulated baseband oscillations onto a transmission frequency for transmitting, wherein said comparison means, said means for producing and temporarily storing information about errors and said uplink sending means are arranged to establish a coupling from the output of the channel decoder to the input of the channel encoder.
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15. A method for using a mobile station for testing the functioning of downlink data communication in a cellular radio system, comprising the steps of:
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receiving a test signal in the downlink direction at the mobile station;
generating a pseudorandom bit sequence at the mobile station in order to produce a known form of the test signal;
comparing the received test signal to the known form of the test signal;
producing and temporarily storing information about errors which were detected in the received test signal during the comparing step; and
sending in the uplink direction a signal representing the stored information about errors.
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16. A method for testing the functioning of downlink data communication in a mobile station equipped for receiving a signal in the downlink direction and for sending a signal in the uplink direction, the method comprising the steps of:
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receiving a test signal in the downlink direction;
comparing the received test signal to a known form of the test signal;
producing and temporarily storing information about errors which were detected in the received test signal during the comparing step; and
sending in the uplink direction a signal representing the stored information about errors;
wherein in a mobile station equipped for converting a downlink signal to baseband and for demodulating, decrypting and channel decoding the signal converted to baseband, the step of comparing the received test signal to a known form of the test signal is performed after demodulation and decryption but prior to channel decoding.
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17. A method for testing the functioning of downlink data communication in a mobile station equipped for receiving a signal in the downlink direction and for sending a signal in the uplink direction, the method comprising the steps of:
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receiving a test signal in the downlink direction;
comparing the received test signal to a known form of the test signal;
producing and temporarily storing information about errors which were detected in the received test signal during the comparing step; and
sending in the uplink direction a signal representing the stored information about errors;
wherein in a mobile station equipped for converting a downlink signal to baseband and for demodulating, decrypting and channel decoding the signal converted to baseband, the step of comparing the received test signal to a known form of the test signal is performed after demodulatin, decryption and channel decoding.
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18. A mobile station of a cellular radio system, comprising:
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reception means for receiving a signal in the downlink direction;
transmission means for sending a signal in the uplink direction;
comparison means for comparing a received test signal to a known form of the test signal;
means for producing and temporarily storing information about errors which were detected in the received test signal by said comparison means; and
uplink sending means for sending in the uplink direction a signal representing the stored information about errors;
downconversion means for converting received downlink data to baseband;
a demodulator for demodulating the data converted to baseband;
decrypting means for decrypting the demodulated data;
a channel decoder for channel decoding the demodulated and decrypted data;
a channel encoder for channel encoding uplink data;
encrypting means for encrypting the channel encoded uplink data;
a modulator for modulating the encrypted channel encoded uplink data onto baseband oscillations; and
upconversion means for converting the modulated baseband oscillations onto a transmission frequency for transmitting;
wherein said comparison means, said means for producing and temporarily storing information about errors and said uplink sending means are arranged to establish a coupling from the output of the decrypting means to the input of the encrypting means.
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19. A mobile station of a cellular radio system, comprising:
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reception means for receiving a signal in the downlink direction;
transmission means for sending a signal in the uplink direction;
comparison means for comparing a received test signal to a known form of the test signal;
means for producing and temporarily storing information about errors which were detected in the received test signal by said comparison means; and
uplink sending means for sending in the uplink direction a signal representing the stored information about errors;
downconversion means for converting received downlink data to baseband;
a demodulator for demodulating the data converted to baseband;
decrypting means for decrypting the demodulated data;
a channel decoder for channel decoding the demodulated and decrypted data;
a channel encoder for channel encoding uplink data;
encrypting means for encrypting the channel encoded uplink data;
a modulator for modulating the encrypted channel encoded uplink data onto baseband oscillators; and
upconversion means for converting the modulated baseband oscillators onto a transmission frequency for transmitting;
wherein said comparison means, said means for producing and temporarily storing information about errors and said uplink sending means are arranged to establish a coupling from the output of the channel decoder to the input of the channel encoder.
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Specification