Telecommunication Engineering Standards essay

Telecommunication Engineering Standards essay Telecommunication Engineering Standards essay Telecommunication Engineering Standards essayThe development of telecommunication engineering standards is pivotal for contemporary telecommunication systems because they have to be balanced and compatible with each other. The introduction of engineering standards in telecommunication systems helps to develop those systems effectively and successfully because common standards create conditions for the create conditions for the development of homogeneous telecommunication systems, which can interact with each other successfully.  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚   In actuality, telecommunication engineering standards are established by the Telecommunication Industry Association (TIA), which operates internationally and establish international standards. The introduction of international standards helps to develop common norms and principles applied internationally. In this regard, it is possible to single out the major engineering committees of TIA that determine telecommunica tion standards. For example, TR-8  Mobile and Personal Private Radio Standards is the committee that  develops  public safety  and radio equipment standards (Tanenbaum 125). Engineers should match those standards which focus on safety and information protection as the main priorities for engineers working with telecommunication systems.TR-14  Point-to-Point Communications Systems develops  cellular tower  structure standards, which are particularly important today, when mobile phones have become an integral part of the life of the modern society (Silva 201). TR-14 establishes standards for cellular tower structure, which determines the development of telecommunication systems providing mobile phone connection and related services. TR-30  Multi-Media Access, Protocols and Interfaces  develops  terminal equipment  standards, which engineers should take into consideration, while developing the terminal equipment for telecommunication systems (Viardot 136). In such a way, engineers should match those standards to create reliable and compatible terminal equipment. TR-34  Satellite Equipment Systems  develops satellite equipment standards for  DVB-S  and  Quality of service  (QoS) over IP protocols (Simmonds, Sandilands, van Ekert 319). These standards involve space technologies and help to develop reliable and safe standards of telecommunication systems used in the space industry. TR-41  User Premises Telecommunications Requirements  develops analog telephone,  digital telephone, and  VoIP  standards (Tanenbaum 165). In fact, these standards are still important, instead of the steady replacement of analog telephones by mobile ones. TR-42  Telecommunications Cabling Systems develops  structured cabling (fiber optic,  copper) and  data center  standards (Simmonds, Sandilands, van Ekert 321). These standards are particularly important today, when data transmission has become pivotal for international as well as national telecommunication systems. TR-45  Mobile and Personal Communications Systems Standards  develops  CDMA  and  WiMax  air interface  and  cellular  standards (Viardot 145). These standards are relatively new and open new perspectives for the development of effective telecommunication systems that facilitate the use of internet and phone connection. TR-47  Terrestrial Mobile Multimedia Multicast develops multimedia multicast standards based on the  DVB-H  protocol and  Forward Link Only  technology (Peters 133). These standards are helpful for the development of multimedia multicast standards that facilitate the development of telecommunication systems and improve the quality of communication. TR-48  Vehicular Telematics  develops  telematics  data transmission standards for vehicle manufacturers and fleet management (Peters 141). These standards open new opportunities for the development of vehicles involving the use of modern telecommunica tion systems. In such a way, these standards help to bring telecommunication systems to vehicles expanding the scope of application of telecommunication systems.TR-49  Healthcare ICT develops healthcare standards related to telecommunications networks (Macario 194). These standards are particularly important for the development of effective telecommunication systems within health care environment. For example, the introduction of electronic health records raises the problem of the adoption of effective and reliable standards that can secure telecommunication systems and provide them with effective solutions to enhance the quality of data transmission and to increase the data protection. TR-50  M2M-Smart Device Communications   develops  machine-to-machine  standards for enabling IP-enabled communication between devices and servers (Tanenbaum 169). These standards help to develop internet and related telecommunication systems. They help to enhance the performance of telecom munication systems and enhance the performance of IP-enabled communication systems. TR-51  Smart Utility Networks develops utility  mesh network  standards for enabling communication between metering device nodes and utility company systems (Tanenbaum 174). The development of smart utility networks helps to introduce network standards that are crucial for the communication between metering device nodes that open new opportunities for the development of effective and reliable telecommunication systems.In fact, the introduction of telecommunication engineering standards in the modern environment contributes to the development of compatible telecommunication systems. Engineers should take into consideration those standards to match international norms and standards and create systems that can operate at the national and international level. The enhancement of modern telecommunication systems facilitates the development of effective communication. The modern telecommunication syst ems require the development of effective system.Thus, the development of international telecommunication engineering standards by TIA is essential for the effective and reliable telecommunication systems. The development of effective telecommunication systems contributes to the enhancement of the international communication as well as national communication making physical barriers to disappear.