Monday, January 28, 2019
Emerging Wireless Technologies
A look into the future of radio set communications beyond 3G Forward The cosmos Safety Wireless Network (PSWN) Program is conducting an ongoing assessment of advancements in the radio set communications intentness. The scope of this assessment is to identify emerging radiocommunication utilitys and technologies for potential public safety use in the coterminous future and beyond. This particular document is the first of a series of emerging wireless technologies studies.This study on the wholeow for concent value primarily on the 4th multiplication of restless telecommunications and beyond. G i. e. , an entirely packet switched net profit with in every last(predicate) digital network elements and extremely high avail adapted bandwidth. For the more or less part, it is believed that 4G will sum up true multimedia capabilities such(prenominal) as high-speed selective information access code and video conferencing to the handset. It is also envisioned that 4G s ystems will be deployed with softw be defined radios, allowing the equipment to be upgraded to newfound protocols and work via softw ar upgrades. 4G also holds the foreshadow of worldwide roaming using a wizard handheld device.Wireless Generations At-a-Glance As with all technology progressions, the future(a) upgrades must be in be after and study phases while its predecessors argon existence deployed. This statement holds true with all mobile telecommunications to date. It seems that it will also hold true for the adjoining timess of wireless networks. The original analog cellular systems are considered the first generation of mobile telephony (1G). In the early 1980s, 1G systems were deployed. At the same time, the cellular effort began developing the second generation of mobile telephony (2G).The difference surrounded by 1G and 2G is in the signaling techniques utilize 1G use analog signaling, 2G used digital signaling. As experience shows, the lead-time for mobile phone systems development is about 10 years. It was non until the early to mid 1990s that 2G was deployed. Primary thinking and impression development on 3G for the most part began around 1991 as 2G systems just started to regurgitate out. Since the commonplace model of 10 years to develop a new mobile system is world followed, that timeline would suggest 4G should be operational close to time around 2011.4G would build on the second phase Although the new, three generation (3G) wireless technology has non yet been utilize, leading companies in the industry are already laying the groundwork for what some are calling fourth generation (4G) technology. For the purposes of this article, 4G will be considered those technologies that are sedate in the planning stages and will not be deployed within the next five years. Researchers are continuing their ideas in the development of an undefined wireless world, which could become operational by 2010.The first generation (1G) and second generation (2G) of mobile telephony were intended primarily for voice transmission. The third generation of mobile telephony (3G) will serve both voice and entropy applications. There really is no clear definition of what 4G will be. It is generally accepted that 4G will be a super- promoted version of of 3G, when all networks are expected to embrace Internet protocol (IP) technology. During the last year, companies such as Ericsson, Motorola, Lucent, Nortel and Qualcomm came up with 3G-plus concepts that would push performance of approved, though still emerging, standards beyond on-going ones.Interoperability and the Evolution of Network Architectures unity of the most challenging issues facing deployment of 4G technologies is how to contain the network architectures compatible with each different. New signaling techniques are being designed specifically to enhance instantlys second generation (2G) networks, deliver unique functionality for 3G, and successfully drive the Fourth Generation (4G) of wireless, thus delivering immediate and long benefits to carriers.With the architecture of each generation of wireless devices addressed in the development of advanced technologies, carriers buns easily evolve their systems without additional network modifications, significantly reducing costs and implementation time. Currently, different wireless technologies (e. g. , GSM, CDMA, and TDMA1) are used throughout the world for the 2G, 2. 5G, and eventually 3G networks. There are two approaches being used to develop 4G access techniques 3xRTT ( catamenialy 1xRTT for 2. 5 and 3G) and Wideband CDMA (W-CDMA).These dispa prize access techniques currently do not interoperate. This issue may be figure out with software defined radios. LinkAir Communications is developing a new access technology called rotund-area-synchronized code-division multiple access (LAS-CDMA). LASCDMA will be compatible with all current and future standards, and thither is a relativel y 1 GSM orbicular System for Mobile Communications CDMA Code Division Multiple coming TDMA Time Division Multiple Access easy transition from live systems to LAS-CDMA (using software defined radios).LinkAir emphasizes that LASCDMA will accommodate all the advanced technologies intend for 4G and that LASCDMA will further enhance either 3xRTT or W-CDMA systems performance and capacity. Internet Speeds 2. 5G is the interim solution for current 2G networks to devote 3G functionality. 2. 5G networks are being designed such that a smooth transition (software upgrade) to 3G can be constituted. 2. 5G networks currently offer true data speeds up to 28kbps. In comparison, the theoretical speed of 3G can be up to 2 Mbps, i. e. , somewhat 200 times faster than previous 2G networks.This added speed and throughput will rack up it possible to run applications such as streaming video clips. It is expect that 4G speeds could be as high as 100 Mbps. Thus, 4G will maintain another quantum leap in mobile Internet speeds and picture quality. Ericsson confirms that 4G could draw connection speeds of up to 50 times faster than 3G networks and could offer 3-dimensional visual experiences for the first time. The following graph represents what has been the typical progression of wireless communicationsQuality of value Challenges In wireless networks, Quality of Service (QOS) refers to the mea sure enough of the performance for a system reflecting its transmission quality and service availability (e. g. , 4G is expected to pay at least a dependability of 99. 99%). Supporting QOS in 4G networks will be a major(ip) challenge. When considering QOS, the major hurdles to everyplacecome in 4G include varying rate bear characteristics, bandwidth al mendings, fault allowance levels, and handoff choke among heterogeneous wireless networks. Fortunately, QOS run on can occur at the packet, transaction, circuit, and network levels.QOS will be able to be tweaked at these diffe rent operating levels, making the network more than flexible and possibly more tolerant to QOS issues. Varying rate channel characteristics refers to the fact that 4G applications will have varying bandwidth and transition rate requirements. In order to provide solid network access to backing the anticipate 4G applications, the 4G networks must be designed with both flexibility and scalability. Varying rate channel characteristics must be considered to effectively meet user want and ensure efficient network management.Spectrum is a finite resource. In current wireless systems, frequency licensing and efficient spectrum management are key issues. In 4G systems, bandwidth allocations may still be a concern. Another concern is interoperability mingled with the signaling techniques that are planned to be used in 4G (e. g. , 3xRTT, WCDMA). In comparison with current 2G and 2. 5G networks, 4G will have more fault tolerance capabilities built-in to avoid unnecessary network failure, p oor c everyplaceage, and dropped calls.4G technology promises to enhance QOS by the use of better diagnostic techniques and alarms tools. G will have better support of roaming and handoffs across heterogeneous networks. Users, even in todays wireless market, demand service transparency and roaming. 4G may support interoperability between disparate network technologies by using techniques such as LAS-CDMA signaling. Other solutions such as software defined radios could also support roaming across disparate network technologies in 4G systems. These major challenges to QOS in 4G networks are currently being studied and solutions are being developed.Developers believe that QOS in 4G will rival that of any current 2G or 2. 5G network. It is anticipated that the QOS in 4G networks will closely approximate the QOS requirements in the wireline environment (99. 999% reliability). The emergence of next generation wireless technologies is going enhance the effectuality of the animate methods used by public safety 4G Applications and Their Benefits to Public Safety One of the most notable advanced applications for 4G systems is locationbased services. G location applications would be based on visualized, realistic navigation schemes that would support a remote database containing graphical representations of streets, buildings, and other physical characteristics of a large metropolitan area. This database could be accessed by a subscriber in a moving vehicle equipped with the assign wireless device, which would provide the platform on which would appear a virtual representation of the environment ahead. For example, one would be able to see the native layout of a building during an emergency rescue.This type of application is sometimes referred to as Telegeoprocessing, which is a combination of Geographical Information Systems (GIS) and Global Positioning Systems (GPS) on the job(p) in concert over a high-capacity wireless mobile system. Telegeoprocessing over 4G net works will make it possible for the public safety community to have wireless operational functionality and specialized applications for everyday operations, as well as for crisis management. The emergence of next generation wireless technologies will enhance the effectiveness of the existing methods used by public safety.3G technologies and beyond could possibly bring the following new features to public safety Virtual navigation As described, a remote database contains the graphical representation of streets, buildings, and physical characteristics of a large metropolis. Blocks of this database are transmitted in rapid sequence to a vehicle, where a rendering program permits the occupants to visualize the environment ahead. They may also to the highest degree see the internal layout of buildings to plan an emergency rescue, or to plan to fill hostile elements hidden in the building.Tele-medicine A paramedic assisting a victim of a traffic accident in a remote location could acce ss medical records (e. g. , x-rays) and establish a video conference so that a remotely based surgeon could provide on-scene assistance. In such a circumstance, the paramedic could relay the victims vital information (recorded locally) back to the infirmary in real time, for review by the surgeon.Crisis-management applications These arise, for example, as a expiration of natural disasters where the entire communications infrastructure is in disarray. In such ircumstances, restoring communications quickly is essential. With wideband wireless mobile communications, both curb and complete communications capabilities, including Internet and video services, could be set up in a matter of hours. In comparison, it may take old age or even weeks to re-establish communications capabilities when a wireline network is rendered inoperable. Limitations of 4G Although the concept of 4G communications shows much promise, there are still limitations that must be addressed.One major limitation is operating area. Although 2G networks are becoming more biquitous, there are still many areas not served. Rural areas and many buildings in metropolitan areas are not being served well by existing wireless networks. This limitation of todays networks will carry over into future generations of wireless systems. The hype that is being created by 3G networks is giving the general public unrealistic expectations of always on, always available, anywhere, anytime communications. The public must enlighten that although high-speed data communications will be delivered, it will not be equivalent to the wired Internet at least not at first.If measures are not taken now to correct perceptual experience issues, when 3G and later 4G services are deployed, there may be a great deal of disappointment associated with the deployment of the technology, and perceptions could become negative. If this were to happen, neither 3G nor 4G may realize its full potential. Another limitation is cost. The equ ipment required to implement a nextgeneration network is still very expensive. Carriers and providers have to plan carefully to make sure that expenses are kept realistic. One technique currently being implemented in Asian networks is a Pay-Per-Use model of services.This model will be difficult to implement in the United States, where the public is used to a service-for-free model (e. g. , the Internet). Conclusions 4G networks may eventually deliver on all the promises. At times, it seems that technological advances are being made on a day-to-day basis. These advances will make highspeed data/voice-over-Internet-protocol (VoIP) networks a reality. In the meantime, it is important for industry to develop a strong 3G offering that is palatable for the general public. every bit as important, industry must ensure that expectations are realistic and that services meet and exceed those expectations.If all goes according to what the industry envisions, it may be sooner, rather than later that we will see wireless communications evolve. This growth will give the general public as well as the public safety community amazing functionality from the convenience of a single handheld device. Postscript The purpose of this article is to introduce the reader to next-generation wireless communications. In coming articles, further developments in 4G (e. g. , services, billing, protocols, and standards) and other emerging wireless technologies will be presented in greater depth.Referenceshttp//www.cnn.com/2001/TECH/ptech/03/08/4G.world.idg/http//www.nsf.gov/pubs/1999/nsf9968/nsf9968.htm
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