What does BSSHM mean in IEEE
BSSHM stands for Base Station-aided Single-Hop Multicast. It is a communication technique used in wireless networks that enables the transmission of data from source to multiple destinations over a single hop. BSSHM is widely used in deploying wireless multimedia applications, including mobile TV and video streaming services.
BSSHM meaning in IEEE in Academic & Science
BSSHM mostly used in an acronym IEEE in Category Academic & Science that means Base Station-aided Single-Hop Multicast
Shorthand: BSSHM,
Full Form: Base Station-aided Single-Hop Multicast
For more information of "Base Station-aided Single-Hop Multicast", see the section below.
Advantages of BSSHM
The main advantage of using BSSHM over traditional multicast routing protocols is its efficiency since it eliminates the need for multiple forwarding hops between source and destination nodes. This reduces network loading and improves packet delivery times making it an attractive solution for real time streaming applications such as mobile TV and video conferencing services where speed and reliability are essential. Additionally, since broadcasting packets from a single base station reduces congestion issues associated with large numbers of source-destination links, using BSSHM can be beneficial in networks containing hundreds or thousands of nodes. This makes it ideal for IoT applications where scalability plays an important role. Last but not least, compared to other types of multicasting protocols such as IP Multicast or Mesh Multicasting, BSSHM requires less configuration and complex setup processes offering greater ease-of-use for network operators
Essential Questions and Answers on Base Station-aided Single-Hop Multicast in "SCIENCE»IEEE"
What is Base Station-aided Single-Hop Multicast?
Base Station-aided Single-Hop Multicast (BSSHM) is a communications protocol for sending data from one source to multiple recipients. It utilizes the broadcast capabilities of the base station to send data in one single hop, ensuring maximum efficiency and reliability of delivery.
How does BSSHM work?
BSSHM works by sending packets of data directly from the source to all receivers within range without having to go through intermediary nodes. This process is known as "single hop" transmission and requires minimal time and effort on the part of the sender.
What advantages does BSSHM have over other multicasting protocols?
BSSHM has several advantages over other multicasting protocols. First, it takes advantage of the broadcasting capabilities of base stations, which can reduce costs associated with long-distance transmissions. Additionally, due to its single hop nature, it provides faster delivery speeds compared to other protocols like IP multicasting. Finally, because it doesn't require using any intermediary nodes, it also offers greater security and reliability than some alternative methods.
How is a BSSHM session established?
The establishment of a BSSHM session typically involves first establishing a connection between the source node and each receiving node. Once connections are made, then the base station will start broadcasting out packets of information using its existing infrastructure. The receiving nodes may then receive and process those packets as per their requirement.
What kind of networks can use BSSHM?
BSSHM can be used in any network that has access to a base station with suitable broadcasting capabilities, such as cellular networks or Wi-Fi hotspots. However, due to its reliance on single hop transmission, more complex topologies may not be able to take full advantage of its benefits unless they utilize additional technologies such as mesh networking or direct routing protocols.
Is there an example application that uses BSSHM?
Yes! One example application that relies on BSSHM is push notifications for mobile devices. By using this protocol instead of IP multicast or HTTP streaming services, service providers are able to quickly deliver timely notifications directly to users' mobile phones with minimum latency and cost while keeping user data secure across all devices simultaneously.
Are there any limitations with using BSSHM?
While BSSHM offers several advantages over traditional multicasting methods, it does have some limitations worth considering before implementation. Since it requires all nodes in range be connected directly via radio communication back to the source node before broadcasting begins, there could be interference issues in areas with high density population or multiple overlapping networks present.
Does BSSHM use encryption technology?
Not inherently but depending on user preference encryption techniques can be implemented along side if needed for additional security purposes.