Method for determining a time multiplexing sequence for a MIMO radar

What is claimed is: 1. A method of a Multiple-Input Multiple-Output (MIMO) radar unit operating according to a time multiplexing sequence, the radar unit including a plurality of transmit antennas, the method comprising: control circuitry operating the plurality of transmit antennas to provide a radar output signal based on transmit pulses of the transmit antennas, the operating including: defining a number (N) of the pulses and a transmit duration of the pulses; setting transmit times of the pulses according to: t i =i−(N+1)/2, 1≦i≦N, wherein: ‘i’ is an index and ‘t i ’ is an ith transmit time of the transmit antennas; the setting of the transmit times includes iteratively determining the indices of the transmit times of a first one of a pair of the plurality of transmit antennas whose distance from each other is largest compared to all other pair-wise combinations of the plurality of transmit antennas; the iterative determination is performed according to: ( i ) I LB :=I LB >i max; and ( ii ) I LB :=i max +1 otherwise  (a) I LB = σ−σ M-1 +½·(1+( K−M )·( K−M−N )+ N ) ; and  (b) I UB = (σ−σ M-1 )/( K+ 1− M )−( K− 1− M−N )/2 ;  (c) ‘i max ’ is initially set to 0 and is otherwise a largest previously selected index; ‘I LB ’ is a minimum index of the transmit times; ‘I UB ’ is a maximum index of the transmit times; ‘K’ is a number of pulses transmitted via the first transmit antenna; ‘M’ is a current iteration; ‘σ’ is a sum of the transmit times of the first transmit antenna; ‘σ M-1 ’ is a sum over the transmit times of the first transmit antenna after iteration M−1; ‘ ’ indicates a rounding up to a next largest whole number; ‘ ’ indicates a rounding down to a next smallest whole number; relative values of N, σ, and K are determined from the following table: N σ K 4K 0 N/2 2 + 4K ±½ N/2 1 + 2K 0 (N ± 1)/2;  and the transmit times of a second one of the pair of the plurality of transmit antennas results at the times at which the first transmit antenna is not transmitting; and controlling respective ones of the pair of the plurality of transmit antennas to transmit respective ones of the defined number of pulses at the defined transmit duration and at the respective transmit times set for the respective transmit antennas. 2. The method of claim 1 , wherein N is selected as a multiple of four. 3. The method of claim 1 , wherein: there is a respective time difference between each pair of sequential ones of the transmit times; the transmit times of the pulses are set so that: all of the respective time differences are equal; or a smallest one of the time differences of all of the pairs of sequential ones of the transmit times is larger than a difference between (a) the smallest one of all of the time differences and (b) a largest one of all of the time differences. 4. The method of claim 3 , wherein a transmit energy of each pulse of the time multiplexing sequence transmitted by the selected transmit antennas is equal. 5. The method of claim 3 , wherein the method includes defining the pulses according to a condition by which to minimize any difference between transmit energies of any pairwise combination of the pulses. 6. The method of claim 1 , wherein: there is a respective time difference between each pair of sequential ones of the transmit times; and the setting of the transmit times is performed such that all time intervals between all pairwise combinations of sequential ones of the transmit times are the same. 7. The method of claim 6 , wherein a transmit energy of each pulse of the time multiplexing sequence transmitted by the selected transmit antennas is equal. 8. The method of claim 6 , wherein the method includes defining the pulses according to a condition by which to minimize any difference between transmit energies of any pairwise combination of the pulses. 9. The method of claim 1 , wherein: there is a respective time difference between each pair of sequential ones of the transmit times; and the setting of the transmit times is performed according to an algorithm by which to minimize any difference between a largest and smallest of all time intervals between all pairwise combinations of sequential ones of the transmit times. 10. The method of claim 9 , wherein a transmit energy of each pulse of the time multiplexing sequence transmitted by the selected transmit antennas is equal. 11. The method of claim 9 , wherein the method includes defining the pulses according to a condition by which to minimize any difference between transmit energies of any pairwise combination of the pulses. 12. The method of claim 1 , wherein a transmit energy of each pulse of the time multiplexing sequence transmitted by the selected transmit antennas is equal. 13. The method of claim 1 , wherein the method includes defining the pulses according to a condition by which to minimize any difference between transmit energies of any pairwise combination of the pulses. 14. A Multiple-Input Multiple-Output (MIMO) radar unit, comprising: a plurality of transmit antennas; and control circuitry, wherein: the control circuitry is configured to operate the plurality of transmit antennas to provide a radar output signal based on transmit pulses of the transmit antennas, the operation including: defining a number (N) of the pulses and a transmit duration of the pulses; setting respective transmit times of the pulses for respective ones of a pair of the plurality of transmit antennas whose distance from each other is largest compared to all other pair-wise combinations of the plurality of transmit antennas; and controlling respective ones of the pair of the plurality of transmit antennas to transmit the respective ones of the defined number of pulses set for the respective transmit antennas at the defined transmit duration and at the respective transmit times; the setting of the respective transmit times is performed according to: t i =i−(N+1)/2, 1≦i≦N; ‘i’ is an index and ‘t i ’ is an ith transmit time of the transmit antennas; the setting of the respective transmit times includes iteratively determining the indices of the transmit times of a first one of the pair of the plurality of transmit antennas, with the transmit times of a second one of the pair of transmit antennas resulting at the times at which the first transmit antenna is not transmitting; and the iterative determination is performed according to: ( i ) I LB :=I LB , if I LB >i max; and ( ii ) I LB :=i max +1 otherwise  (a) I LB = σ−σ M-1 +½·(1+( K−M )·( K−M−N )+ N ) ; and  (b) I UB = (σ−σ M-1 )/( K+ 1− M )−( K− 1− M−N )/2 ;  (c) ‘i max ’ is initiall