Determining a time of arrival of a sent signal
First Claim
1. Apparatus for determining a time of arrival (tn) of a transmitted signal ({S}), the apparatus comprising:
- at least two transponder units (20, 30), each comprising a first receiver (22, 32) for receiving the transmitted signal ({S}), a time-processing unit (24, 34) coupled to the first receiver (22, 32) for generating, in response to receipt of the transmitted signal ({S}) by the first receiver (22, 32), a first time-count value (δ
n), and for scheduling transmission of a time-processed signal ( {{tilde over (S)}n}), which is based on the transmitted signal ({S}), in dependence on the time-count value (δ
n), and a transmitter (26, 36) for transmitting the time-processed signal ({{tilde over (S)}n}) from a transmission location (L′
n); and
, an evaluation unit (40) comprising a second receiver (42, 52) for receiving the time-processed signal ({{tilde over (S)}n}) after a determinable time-delay value (τ
n), a timer unit (44, 54) coupled to the second receiver (42, 52) for generating, in response to receipt of the time-processed signal ({{tilde over (S)}n}) by the second receiver (42, 52), a second time-count value (Δ
Tn), a controller (46) for generating a time reference (T0) for the timer unit (44, 54), and a processing unit (48) for deriving the time of arrival (tn) based on the time reference (T0) from the first time-count value (δ
n), the time-delay value (τ
n), and the second time-count value (Δ
Tn).
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Abstract
The present invention provides an apparatus, method, and system for determining a time of arrival (TOA) and time differences of arrival (TDOA) of a transmitted signal {S} receivable at different locations of known spatial coordinates. The system comprises a first transmitter 10 with a respective antenna feed point positioned at an a priori unknown location P and emitting a first signal {S}. The system includes furthermore a set of transceivers or transponder units 20, 30 comprising first receivers 22, 32 for receiving first signals {S} by means of respective antennas with feed points located at known locations Ln. Such system also comprises second transmitters 26, 36 emitting respective derived second signals {{tilde over (S)}n} after known and scheduled respective time intervals δn as measurable between the feed points of said respective first receiving antennas located at known locations Ln and respective second transmitting antenna located at locations L′n. A set of second receivers 42, 52 receives respective second signals {{tilde over (S)}n} after known respective time intervals τn measured between the feed points of the second transmitting antennas and feed points of second receiving antennas. A controller 46 terminates the measurement cycle for each first transmitter 10 to define total signal transfer times and then sends to a processing unit 48 an ensemble of derived third signals {Ŝn}, after some known respective delay times ΔTn. Said delay times ΔTn are measured between the time one third signal {Ŝ} passes the feed point of the respective second receiving antenna and the time instant where the respective single time reference T0 issued by the controller 46 terminates the measurement cycle. The set of third signals {Ŝn} received by the processing unit 48 contains sufficient information for determining the time of arrival (TOA) and time differences of arrival (TDOA) and to compute {circumflex over (P)}, an estimate of the a priori unknown location P of a mobile radio terminal or radio tag emitting the first signal {S}.
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Citations
10 Claims
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1. Apparatus for determining a time of arrival (tn) of a transmitted signal ({S}), the apparatus comprising:
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at least two transponder units (20, 30), each comprising a first receiver (22, 32) for receiving the transmitted signal ({S}), a time-processing unit (24, 34) coupled to the first receiver (22, 32) for generating, in response to receipt of the transmitted signal ({S}) by the first receiver (22, 32), a first time-count value (δ
n), and for scheduling transmission of a time-processed signal ( {{tilde over (S)}n}), which is based on the transmitted signal ({S}), in dependence on the time-count value (δ
n), anda transmitter (26, 36) for transmitting the time-processed signal ({{tilde over (S)}n}) from a transmission location (L′
n); and
,an evaluation unit (40) comprising a second receiver (42, 52) for receiving the time-processed signal ({{tilde over (S)}n}) after a determinable time-delay value (τ
n),a timer unit (44, 54) coupled to the second receiver (42, 52) for generating, in response to receipt of the time-processed signal ({{tilde over (S)}n}) by the second receiver (42, 52), a second time-count value (Δ
Tn),a controller (46) for generating a time reference (T0) for the timer unit (44, 54), and a processing unit (48) for deriving the time of arrival (tn) based on the time reference (T0) from the first time-count value (δ
n), the time-delay value (τ
n), and the second time-count value (Δ
Tn). - View Dependent Claims (2, 3, 4, 5)
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6. Method for determining a time of arrival (tn) of a transmitted signal ({S}), the method comprising the steps of:
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receiving the transmitted signal ({S}) at a predefined first receiving location (Lm);
generating upon reception of the transmitted signal ({S}) a first time-count value (δ
n) for scheduling the transmission of a time-processed signal ({{tilde over (S)}n}) that is derived from the received signal ({S});
transmitting the time-processed signal ({{tilde over (S)}n}) from a transmission location (L′
n);
receiving the time-processed signal ({{tilde over (S)}n}) after a determinable time-delay value (τ
n);
generating upon reception of the time-processed signal ({{tilde over (S)}n}) a second time-count value ( Δ
Tn);
generating a time reference (T0); and
deriving the time of arrival (tn) based on the time reference (T0) from the first time-count value (δ
n) the time-delay value (τ
n), and the second time-count value (Δ
Tn). - View Dependent Claims (7, 8)
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9. System for determining a time of arrival (tn) of a transmitted signal ({S}), the system comprising:
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a first transmitter (10) for sending the signal ({S});
at least two transponder units (20, 30), each comprising a time-processing unit (24, 34) coupled to a first receiver (22, 32) that upon reception of the transmitted signal ({S}) generates a first time-count value (δ
n) scheduling the transmission of a time-processed signal ({{tilde over (S)}n}) that is derivable from the received signal ({S}),a second transmitter (26, 36) for transmitting the time-processed signal ({{tilde over (S)}n}) from a transmission location (L′
n); and
,an evaluation unit (40) comprising a second receiver (42, 52) for receiving the time-processed signal ({{tilde over (S)}n}) after a determinable time-delay value (τ
n),a timer unit (44, 54) coupled to the second receiver (42, 52) that upon reception of the time-processed signal ({{tilde over (S)}n}) generates a second time-count value (Δ
Tn),a controller (46) for generating a time reference (T0) for the timer unit (44, 54), and a processing unit (48) for deriving the time of arrival (tn) based on the time reference (T0) from the first time-count value (δ
n), the time-delay value (τ
n), and the second time-count value (Δ
Tn). - View Dependent Claims (10)
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Specification