Factors Affecting the Cloud Authorization Model in Cloud Computing Platform

With the developments made in cloud computing on each
passing day, Developers are turning their blind side towards to major issues which are actually a threat to its existence. This paper is an eye opener to the entire dilemma which is commonly faced by portable device users. Major issues range from insufficient bandwidth to transmission interferences; it’s a commonly known fact that the cloud internet access is slower than the direct cable ones, using technology like GPRS, EDGE and recently 3G, the higher speed wireless LANs maybe economical but have very limited range. To improve network coverage, one can install more wireless cells to service a user population. There are two ways of doing this: overlap cells on different wavelengths, or reduce transmission ranges so that more cells fit in a given area. The second technique is generally preferred. It is arguably simpler, reduces power requirements and may decrease corruption of the signal because it may interact with fewer objects in the environment. With ATM (Asynchronous Transfer Mode) on the time of design gave a
staggering speed of 150mb\s, with its proper implementation
and with Cloud computing under your belt, the level of data
transfer and access will reach its new heights. Battery life is also a major heartbreak for all the portable device users with laptops having 7-8 hours of battery backup and former Smart phones is also limited to just a day. This is not feasible for a daily user. But Noble prize winning material called “graphene” can change it all. Turns out that not only may it replace silicon as the major component of microchips, it's on track to becoming the next mega battery as well. It can provide higher storage energy capacity than our modern day batteries. Last but certainly not the least the major concern which all the users will face is without a doubt the health hazards caused by the devices. We are prone to diseases like cancer etc due to the electromagnetic radiation in the microwave range. Shielding and other methods are discussed in this paper which doesn’t allow harmful radiation to go out can be designed by the manufactures to decrease the level of radiation and health hazards. The following approaches and their shortcomings are addressed in this paper.