Radar apparatus and vehicle control system

What is claimed is: 1 . A radar apparatus comprising: a signal processor controlling transmission and reception of radar signals through transmitting channels and receiving channels, and processing the radar signals; a transmitter comprising a plurality of transmitting antennas connected to the transmitting channels, respectively, and spaced apart from each other according to a predetermined transmitting antenna spacing factor and a unit separation distance; and a receiver comprising a plurality of receiving antennas connected to the receiving channels, respectively, and spaced apart from each other according to a predetermined receiving antenna spacing factor and the unit separation distance, wherein the transmitter comprises first to fourth transmitting antennas arranged sequentially, and the receiver comprises first to fourth receiving antennas arranged sequentially, and a total arrangement distance for the first to fourth transmitting antennas and a total arrangement distance for the first to fourth receiving antennas are set to be equal. 2 . The radar apparatus of claim 1 , wherein the predetermined transmitting antenna spacing factor comprises a first factor set between the first transmitting antenna and the second transmitting antenna, a second factor set between the second transmitting antenna and the third transmitting antenna, and a third factor set between the third transmitting antenna and the fourth transmitting antenna, the predetermined receiving antenna spacing factor comprises a fourth factor set between the first receiving antenna and the second receiving antenna, a fifth factor set between the second receiving antenna and the third receiving antenna, and a sixth factor set between the third receiving antenna and the fourth receiving antenna, and the first to sixth factors are set to different values. 3 . The radar apparatus of claim 2 , wherein a sum of the first to third factors is set equal to be a sum of the fourth to sixth factors. 4 . The radar apparatus of claim 2 , wherein if each of a sum of the first to third factors and a sum of the fourth to sixth factors is set to be 24, the second factor is set to be 12, and the fifth factor is set to be 19. 5 . The radar apparatus of claim 4 , wherein the first factor or the third factor is set to be one of 4 or 8, and the fourth factor or the sixth factor is set to be one of 2 or 3. 6 . The radar apparatus of claim 2 , wherein if each of a sum of the first to third factors and a sum of the fourth to sixth factors is set to be 24, the second factor is set to be 19, and the fifth factor is set to be 12. 7 . The radar apparatus of claim 6 , wherein the first factor or the third factor is set to be one of 2 or 3, and the fourth factor or the sixth factor is set to be one of 4 or 8. 8 . The radar apparatus of claim 1 , wherein the unit separation distance is set to be half a wavelength of a frequency of the radar signals. 9 . The radar apparatus of claim 1 , wherein the transmitting antennas are arranged on a straight line to be spaced apart from each other, and the receiving antennas are arranged on a straight line to be spaced apart from each other. 10 . The radar apparatus of claim 9 , wherein the straight line on which the transmitting antennas are arranged to be spaced apart from each other is parallel to the straight line on which the receiving antennas are arranged to be spaced apart from each other. 11 . The radar apparatus of claim 1 , wherein the transmitting antennas and the receiving antennas are arranged on a single straight line to be spaced apart from each other. 12 . The radar apparatus of claim 1 , wherein the signal processor creates 16 virtual channels and creates 48 difference co-arrays using the 16 virtual channels to process the radar signals, wherein one difference co-array having a non-uniform difference co-array spacing is removed from the 48 difference co-arrays and a uniform linear array is created using the 48 difference co-arrays to process the radar signals. 13 . A radar apparatus comprising: a signal processor controlling transmission and reception of radar signals through transmitting channels and receiving channels, and processing the radar signals; a transmitter comprising a plurality of transmitting antennas connected to the transmitting channels, respectively, and spaced apart from each other according to a predetermined transmitting antenna spacing factor and a unit separation distance; and a receiver comprising a plurality of receiving antennas connected to the receiving channels, respectively, and spaced apart from each other according to a predetermined receiving antenna spacing factor and the unit separation distance, wherein the transmitter comprises first to fourth transmitting antennas arranged sequentially in a first direction, and the receiver comprises first to fourth receiving antennas arranged sequentially in the first direction, a total arrangement distance for the first to fourth transmitting antennas in the first direction and a total arrangement distance for the first to fourth receiving antennas in the first direction are set to be equal, and at least one of the first to fourth transmitting antennas and the first to fourth receiving antennas is spaced apart in a second direction. 14 . The radar apparatus of claim 13 , wherein the predetermined transmitting antenna spacing factor comprises a first factor set between the first transmitting antenna and the second transmitting antenna, a second factor set between the second transmitting antenna and the third transmitting antenna, and a third factor set between the third transmitting antenna and the fourth transmitting antenna, and the predetermined receiving antenna spacing factor comprises a fourth factor set between the first receiving antenna and the second receiving antenna, a fifth factor set between the second receiving antenna and the third receiving antenna, and a sixth factor set between the third receiving antenna and the fourth receiving antenna, and the first to sixth factors are set to different values. 15 . The radar apparatus of claim 13 , wherein the first direction and the second direction are perpendicular to each other. 16 . A vehicle control system comprising a radar apparatus, the vehicle control system comprising: a radar apparatus controlling transmission and reception of radar signals through transmitting channels and receiving channels and processing the radar signals, wherein the radar apparatus comprises: a plurality of transmitting antennas connected to the transmitting channels, respectively, and spaced apart from each other according to a predetermined transmitting antenna spacing factor and a unit separation distance; a plurality of receiving antennas connected to the receiving channels, respectively, and spaced apart from each other according to a predetermined receiving antenna spacing factor and the unit separation distance, wherein the transmitter comprises first to fourth transmitting antennas arranged sequentially, the receiver comprises first to fourth receiving antennas arranged sequentially, and a total arrangement distance for the first to fourth transmitting antennas and a total arrangement distance for the first to fourth receiving antennas are set to be equal; and a controller generating control signals based on vehicle's surrounding object information detected using the radar signals received from the radar apparatus. 17 . The vehicle control system of claim 16 , wherein the predetermined transmitting antenna spacing fac