Wireless Protocols Jason D. Knight As with all data transmission technologies, protocols govern the manner in which information is transferred between stations. A protocol is simply an agreed upon standard that all parties use to ensure that different devices can communicate with each other. Wireless protocols can be discussed on their own, and where they fit in the OSI protocol suite. For the sake of clarity, we will limit our discussion to wireless network implementations. Wireless protocols typically reside in layers 1 and 2, the application and presentation layers, respectively, of the OSI model.
These two layers help direct how the data is gathered from the end station and prepared for transmission. The main wireless protocol are: IEEE 802. 11 covering wireless Ethernet; 802. 15 dealing with wireless personal area networks (WPAN), including Bluetooth technology; and 802.
16 for broadband wireless access. 802. 11 The IEEE 802. 11 specification family consists of four different, primary specifications: o 802. 11 – applies to wireless LANs and provides 1 or 2 Mbps transmission in the 2.
4 GHz band using either frequency hopping spread spectrum (FHSS) or direct sequence spread spectrum (DSSS).
The Term Paper on Wireless Transaction Protocol Layer
Wireless Transaction Protocol Layer To improve clinical performance, hospitals need to ensure that therapeutic practitioners can remotely access critical pathways, hospital patient records, and clinical outcomes tracking. Of course, such abilities also present an enormous confront for maintaining security and privacy. This paper will discuss designing a scalable system that will implement ...
o 802. 11 a – an extension to 802. 11 that applies to wireless LANs and provides up to 54 Mbps in the 5 GHz band. 802. 11 a uses an orthogonal frequency division multiplexing encoding scheme rather than FHSS or DSSS.
o 802. 11 b (also referred to as 802. 11 High Rate or Wi-Fi) – an extension to 802. 11 that applies to wireless LANS and provides 11 Mbps transmission (with a fallback to 5. 5, 2 and 1 Mbps) in the 2. 4 GHz band.
802. 11 b uses only DSSS. 802. 11 b was a 1999 ratification to the original 802. 11 standard, allowing wireless functionality comparable to Ethernet. o 802.
11 g – applies to wireless LANs and provides 20+ Mbps in the 2. 4 GHz band. o 802. 11 n – applies to future standards for wireless data transmission that promises a maximum bandwidth of 108 Mbps through the use of multiple antennas (MIMO).
Strangely, the order of inception is not alphabetical. Rather, the specifications developed as follows: 802. 11; 802. 11 b; 802. 11 a; 802, 11 g; and the projected 802. 11 n.
The 802. 11 family specifies the way in which wireless devices communicated with wired LAN base stations, or access points. Wireless-to-wired communication is known as infrastructure mode. A second mode, known as ad how mode, specifies the manner in which direct communication between wireless devices occurs. Three of the four current specifications use the 2. 4 GHz band.
This is an unlicensed bandwidth, which means it is available free of charge to anyone with the technical to use it. The three specifications operating at 2. 4 Ghz are also backwards compatible, although transmission speed between two devices with differing bandwidth is limited to the speed rating of the slowest appliance. The remaining current protocol, 802. 11 a, operates in the 5 GHz spectrum and provides the greatest transmission rate, up to 54 Mbps. One other advantage provided by 802.
11 a comes as a result of the way in which the transmission spectrum is divided into channels: where b and g use overlapping channels resulting in only three interference-free channels out of eleven possible channels, a provides eleven channels. However, it is unable to communicate with any appliances using any of the other specifications. Review of the 802. 11 family reveals several methods by which more than one signal can be sent over each channel: FHSS, DSSS, and OFDM.
The Term Paper on Transmission Of Multimedia Data Over Wireless Ad Hoc Network
Transmission of Multimedia Data over Wireless Ad-Hoc networ sA. Berk BarutluAbstractAd-how networking has been of increasing interest and therefore recognized as an important research area in recent years. This paper is about transmission of multimedia data over wireless ad-how networks, the problems and the related issues. 1. Introduction 1. 1 Ad-Hoc Networks An ad-how network is a collection of ...
FHSS, or frequency hopping spread spectrum, requires synchronized transmitting and receiving stations. The stations, though using many frequencies, maintains only one logical channel. Since the FCC regulations require no less than 75 frequencies per transmission channel, a single channel could have 75 or more discrete channels within a single transmission channel. DSSS, or direct station spread spectrum, combines the signal with a higher data-rate bit sequence, called chipping. The chipping creates a redundant signal, which is much more resistant to data loss from interference.
OFDM, or orthogonal frequency division multiplexing, is used to transmit large amounts of data. A single carrier is split into many smaller sub-carriers that are transmitted simultaneously over different frequencies. This transmission method also reduces crosstalk, or electromagnetic interference. Some other specifications in the 802. 11 family are: h, which helps European and American networks inter-communicate; I, dealing with wireless network security concerns; and e, which prioritizes data transmissions and assigns highest priority to real time audio and video stream, and is known as the QoS (quality of service) standard. A wired Ethernet uses CSMA/CD to ensure successful data transmission.
The wireless Ethernet uses CSMA/CA, or carrier sense multiple access / collision avoidance. This ensures data is successfully transmitted the first time because it will not allow transmissions until the preceding one is complete. While data transmission is reliable, this slows down transmission rates such that throughput is reduced to half of bandwidth. 802.
15 This is specification suite dealing with data transmission within a WPAN. A personal area network is confined to an extremely limited geographic area, and includes such devices as PDA synchronization docks, wireless keyboards and mice, et. al. This specification also includes several different categories, . 1, . 2, .
The Term Paper on The Emerging Standard For Mobile Data Communication
INTRODUCTION has expcricnced great progress in recent years. Standards for broadcasting digital content to the end user are available and have been proven in large scale commercial deployments or, at least, extensive trial networks. This development can be observed recently also with regard to the standard for digital terrestrial television, DVB-T (Digital Video Broadcasting Tcrrestrial), which is ...
3, . 3 a, and. 4. Like the 802.
11 family, each of these categories deals with a specific subset of WPANs. The most significant of these is 802. 15. 2.
This specification governs the co-existence of WLANs and WPANs, enabling the two different wireless technologies to operate within the same area. 802. 16 This is another wireless suite that deals specifically with broadband wireless transmission. Also known as Wi Max, these protocols provide up to 70 Mbps of point to multi-point transmission in a large range of frequency bands, from 10 to 66 Mhz, at great distances of up to thirty-seven miles. This specification was designed to bring wireless, broadband connectivity into buildings instead of he traditional T! and DSL lines.
As the specifications were upgraded, specifically with 802. 16-2004, the range was increased to allow for the creation of Wpans, or wireless metropolitan area networks. This specification also added more low-range channels which, because they can travel through non-metallic substances, are necessary to create a WPAN. Bibliography 802. 11, Tech Web, retrieved April 15, 2005 from the World Wide Web: web Webopedia, retrieved April 15, 2005 from the World Wide Web: web Webopedia, retrieved April 15, 2005 from the World Wide Web: web Webopedia, retrieved April 15, 2005 from the World Wide Web: web Tech Web, retrieved April 15, 2005 from the World Wide Web: web Tech Web, retrieved April 15, 2005 from the World Wide Web: web.
