00:02 Circuit switching reserves resources, packet switching does not. 01:10 Circuit switching provides a dedicated transmission rate, while packet switching allocates based on demand. 02:19 Packet Switching is more efficient than Circuit Switching 03:26 Circuit-switched networks support 10 users simultaneously. 04:39 Packet switching offers the same performance as circuit switching 05:48 Packet switching offers better sharing of links transmission capacity than circuit switching. 06:57 Packet switching performs better than circuit switching but may not be suitable for real-time services. 07:59 Packet switching is more efficient than circuit switching
Thank you for doing all this work for us! May I make a suggestion? Would you be able to have someone without a heavy foreign accent do the reading?? It is a real struggle for me and all my IT staff to understand you. Not trying to insult you.
Very nice explanation. In this video, you talk about assigning the transmission link capacity...I know we can calculate capacity by formula like Shannon Capacity. But in actual implementation scenario, do anyone have idea how these capacities are assigned to different links and controlled? Is there some software or what? we can simply calculate by formula, how about implementation part?
I appreciate what you do with breaking things down to help people understand complex things.
I couldn't get from 3 hours lecture but I got understood from 9min video?! Thank you)
Really I liked ur video. I never commented on any video but really i liked this video very much. This helped me lot.
I think I am really understanding networking, only when I watch ur videos on networking
explained the whole topic in very less time with quality teaching ...: )
00:02 Circuit switching reserves resources, packet switching does not.
01:10 Circuit switching provides a dedicated transmission rate, while packet switching allocates based on demand.
02:19 Packet Switching is more efficient than Circuit Switching
03:26 Circuit-switched networks support 10 users simultaneously.
04:39 Packet switching offers the same performance as circuit switching
05:48 Packet switching offers better sharing of links transmission capacity than circuit switching.
06:57 Packet switching performs better than circuit switching but may not be suitable for real-time services.
07:59 Packet switching is more efficient than circuit switching
Kindly upload videos explaining TCP,UDP and MAC hearder fields
really i liked ur videos .can u upload tcp and UDP
Thank you for sharing the important information😁
thank you from KSA , THANK YOU SO MUCH !!!!!!!!
علمود لحد يقول بس العراقيين يقولون اخوكم من العراق^
Thank you for the clear explanation ❤
I always prefer to watch your vedeos .❤️
Fantastic example with the restaurants.
I appreciate your labour....
But we wish that you should upload more videos, bcz it necessary for us...
This like is for your labour for us...
Don't send like, send more videos...
We are waiting for you...
Best videos on YT for computer networks.....How are you making these animations?? Which software you are using??
An excelent explanation my friend
07:15 Difference between Circuit & Packet Switching
🤣
😂😂
The probability is actually P[10 or less simultaneous active users] and not P[10 simultaneous active users] based on the formula used.
So for P[10 simultaneous active users] you just have to compute it for x = 10 right? No summation from x = 0 -> 10?
THANKS FOR UPLOADING
very easily explained bro....
Thank you so much 🙂
Thank you for doing all this work for us! May I make a suggestion? Would you be able to have someone without a heavy foreign accent do the reading?? It is a real struggle for me and all my IT staff to understand you. Not trying to insult you.
John Zappulla no
he seems pretty clear to me
Great analogy,,❤❤👍
Thank you for making such vedios
This is helpful,thank you ❤️
You’re welcome 😊
I liked your way of teaching 🤗🤗
Glad to hear that
Very nice explanation
Great explanation , thanks a lot
Super bro....make more videos ✌️
Please upload more frequently
Many many thanks Sir
wow!!!!!!!👌👌splendid
5:30 this doesn't work. the answer is not what you wrote
You are just wooww🔥
God bless you sir
Good explanation
thanks a lot good explanation
Very nice explanation. In this video, you talk about assigning the transmission link capacity...I know we can calculate capacity by formula like Shannon Capacity. But in actual implementation scenario, do anyone have idea how these capacities are assigned to different links and controlled? Is there some software or what? we can simply calculate by formula, how about implementation part?
Using FDM or TDM techniques
Are you not planning to add more topics?
true..why he not publishing new tropic in network..?
Good video
confused 😕
please provide the link for notes....the link is the description is not working
Appreciated!
Can't believe I understood all of that. Lol.
Nice
Hi.. This Qayas from Pakistan... Kindly upload tcp/ip model presentation... Just like osi model... Thank you
why only 35 is taken in packet switching
35 was a random number of users. Packet switching supports more users because its almost sure that
Pls remove background music, we are usable to concentrate on the topic.
Not anyone mentioned in marking scheme 2022
bhai, book ka hi chhap diya poora aapne. . . .
Kon sa book hai ye?
what happens if number of users is greater than 35?
the probability of simultaneously having more than 10 users logged in will be more, so its more likely to be a delay.
This was great thank you.
Thanks
Hi, bro can i use your animation videos.. I will translate into our regional language.
No, I don't allow
@@TechTermsDG ok,Tq
@@TechTermsDGbecause of this overaction, subscribers are limited to 190k despite 4 years.
I am instantly unsubscribing
Great
Message switching
Good
Thanks
thank youu
정말대단해
thank you sir but kindly dont add music pls
Devru guru ninu
dear not helpful I didn't satisfied
Not so good need improvement