Question 1 Not yet answered Marked out of 40.00 Flas question Very High Frame Rate Ultrasound for Medical Diagnostic Imaging increases the frame rate up to 10,000 frames per second (fps), owing to its usefulnes in functional imaging. Each frame (image) consists of 3840 x 2160 pixels, each with pixel containing 64 bits of intensity information. (total 40) a) What is the required storage capacity, in bits, for a single frame? () b) Suppose the device used produces a frame rate of 5000 frames per second (fps), and a single study lasts, on an average, 2 minutes, determine the length of data per study. (9) ce) tf the study is to be transmitted as a single file, with a border of 2.4 bytes, determine the minimum bandwidth necessary (9) (d) Suppose the message is segmented into 1500-byte blocks, with a 24-byte header added to form a packet. Between the source and the destination there are two intermediate routers. Assume (1) a link propagation speed to be 2.5 x 10"m/s, (i) an average bandwidth of 12.0 Gbps per link, (iii) packet switch processing delay of 30 msec. The length of the first link is 5,000 km, the second 4.000 km and the third 3,000 km. Assume that about 1% of the packets will require retransmission due to loss, corruption, and other reasons. Determine the end-to-end delay before the message can be viewed in its entirety at the destination. (15) Question 1 Not yet answered Marked out of 40.00 Flas question Very High Frame Rate Ultrasound for Medical Diagnostic Imaging increases the frame rate up to 10,000 frames per second (fps), owing to its usefulnes in functional imaging. Each frame (image) consists of 3840 x 2160 pixels, each with pixel containing 64 bits of intensity information. (total 40) a) What is the required storage capacity, in bits, for a single frame? () b) Suppose the device used produces a frame rate of 5000 frames per second (fps), and a single study lasts, on an average, 2 minutes, determine the length of data per study. (9) ce) tf the study is to be transmitted as a single file, with a border of 2.4 bytes, determine the minimum bandwidth necessary (9) (d) Suppose the message is segmented into 1500-byte blocks, with a 24-byte header added to form a packet. Between the source and the destination there are two intermediate routers. Assume (1) a link propagation speed to be 2.5 x 10"m/s, (i) an average bandwidth of 12.0 Gbps per link, (iii) packet switch processing delay of 30 msec. The length of the first link is 5,000 km, the second 4.000 km and the third 3,000 km. Assume that about 1% of the packets will require retransmission due to loss, corruption, and other reasons. Determine the end-to-end delay before the message can be viewed in its entirety at the destination. (15)