Evaluation Strategies for Wireless Ultra Wideband Communication Towards Orthopedic Surgical Scheme

Abstract

Wireless medical devices shall considerably improve the proficiency and effectiveness in medical segments. Recent wireless inventions enable reduced design, thus becomes inexpensive for manufacturing. Huge quantity of individual information is measured and communicated in wireless manner, consequently safety precautions are needed to be integrated with these wireless technologies. The evaluation strategies for Wireless Ultra Wideband communication towards orthopedic surgical scheme has been explained in this paper. Every devices considered in this paper are identical with each others towards their elementary objective. However, they vary towards different real-world applications. The devices enumerated in this paper have shared operating frequency bands of 2.4 GHz ISM Band and UWB frequency ranging from 3.1 GHz to 10.6 GHz. Every devices entailed here is positioned to fit within the operating frequencies either at 2.4 GHz or 3.1 GHz to 10.6 GHz. This paper targets on protective patient-privacy which is deemed to be energetic characteristics towards isolated patient monitoring schemes. Considering the rise in quantity of feasible wireless medicinal products, this paper targets in the engagement of different wireless standards and measured data on the basis of dissimilar rates. Thus, the foremost significant in this work is towards supplementing the quantity of integration in wireless medical monitoring schemes. Similarly, as the applications of implantable and ingestible wireless medical approaches are becoming increased, they offer easy accessing towards data collecting and data which are previously dreadful, and this has been considered as a vital parameter in this paper. Hence, there becomes bigger possibility towards improving exactness of wireless positioning arrangements. When complications of the system increase, the prevailing protocols shall not be appropriate for superior and satisfactory bandwidth pertaining real-time application, thereby few protocols have been worked out to encounter this issue. Therefore, the major contributions in this paper include advanced speediness, superior data rate designs and effective protocols. In this paper, all the structures entailed have the potential to assist doctors for improving the dominance in lives of patients, thus application development is properly discussed for progressing with these implements.