In this paper we address the problem of designing a TCP[11] and IP[10] (TCP
/IP for short) based video on demand (VOD for short) system over a dedicate
d network based on standard internet protocols, ie., Transmission Control P
rotocol (TCP for short, IETF RFC 793[11]) and Internet Protocol (IP for sho
rt, IETF RFC 791[10]). TCP and IP are usually refered together as TCP/IP. D
espite of the general belief that TCP/IP is not suitable for real-time mult
imedia applications, after testing in laboratory environment for about one
year we are confident in announcing that our prototype is both efficient an
d reliable. This success depends on several important factors. First of all
, the system operates on a dedicated network in which there exists no other
traffic except a light of background traffic generated by the Ether Switch
the major network component used by our prototype. Second system overhead
due to the VOD server and the network adaptor card is minimized Third, we m
aximize disk bandwidth by implementing a proprietary disk file system. Our
experiment shows that it requires only about 330 KBytes at the client buffe
r to smooth packet delay jitters. In our experimental environment, due to r
esource limitations, up to 40 clients had been tested successfully. By look
ing at network bandwidth and CPU utilization, we estimate that a single VOD
sewer should be able to handle more than 40 interactive clients playing MP
EG-1 system streams simultaneously.