I know latency is a big problem on satellite but how are the newer 2 way dishes? I understand the overall trafficflow of sat technology, but not the exact specifics.
a few major questions about it. How bad is the latency on 2 way? In practical figures, well I guess somewhat theoretical since some networks will be worse then others. How many extra steps is the system taking over a landline? I am assuming an extra 4? That extra relay and routing with the satellite for both directions.
Roughly how much average time per 1,000 miles (in ms) does a microwave signal take to send to the sat, back to the ISP, then ISP back to sat, then back to dish take? (I would assume the distance/speed of light (miles per/sec)/1000 = ms time) That would be a big part of the physical limitations. I am seeing only like 50 ms total for all 4 directions in 1000 miles though. And of course, thats just the actual physical time of the signal. Then you have all your other overheads of global routing and server delays.
So what would be/is a practical response time for 2 way satellite at say 2000 miles (I would assume 2000 is a decent average?). I would assume the distance to the sat/equator makes a difference of about 50ms per 1,000 miles? How much better could it get within a reasonable 3-5 year time frame? Assuming zero latency routing doesn't get invented anytime soon.
Also whats the difference between ms response time, and an average ping? Ms response time shows the time the signal takes to get to the target? and ping is how long the signal takes to get to the target and back? so does 2 x ms response = ping?
I hope I am making sense
a few major questions about it. How bad is the latency on 2 way? In practical figures, well I guess somewhat theoretical since some networks will be worse then others. How many extra steps is the system taking over a landline? I am assuming an extra 4? That extra relay and routing with the satellite for both directions.
Roughly how much average time per 1,000 miles (in ms) does a microwave signal take to send to the sat, back to the ISP, then ISP back to sat, then back to dish take? (I would assume the distance/speed of light (miles per/sec)/1000 = ms time) That would be a big part of the physical limitations. I am seeing only like 50 ms total for all 4 directions in 1000 miles though. And of course, thats just the actual physical time of the signal. Then you have all your other overheads of global routing and server delays.
So what would be/is a practical response time for 2 way satellite at say 2000 miles (I would assume 2000 is a decent average?). I would assume the distance to the sat/equator makes a difference of about 50ms per 1,000 miles? How much better could it get within a reasonable 3-5 year time frame? Assuming zero latency routing doesn't get invented anytime soon.
Also whats the difference between ms response time, and an average ping? Ms response time shows the time the signal takes to get to the target? and ping is how long the signal takes to get to the target and back? so does 2 x ms response = ping?
I hope I am making sense
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