IBM Mainframe Makeover: What Powers Your Mobile Applications and Smart Phones | IJSTE JOURNAL VOL 2, ISS 9

IBM Mainframe Makeover: What Powers Your Mobile Applications and Smart Phones

The principal objective of this paper is to demonstrate the capabilities of legacy mainframes to support and use in smart phones and mobile applications devices. Legacy mainframes are trusted backbone platforms for executing critical business transactions. They are robust, reliable, scalable, and most importantly, resilient. Mainframe ecosystems have evolved to stay relevant, and despite their bad press, they have contributed to major technology milestones in the last decade.96 of the world's top 100 banks, 23 of the top 25 US retailers, and 9 out of 10 of the world's largest insurance company’s still use mainframes. Mainframes process roughly 30 billion business transactions per day, including most major credit card transactions and stock trades, money transfers, manufacturing processes, and ERP systems. Across the globe, more people now use mobile devices as their primary means of obtaining information and requesting services over the Internet. This shift is due to the convenience of being able to carry devices wherever they go, along with their user-friendly and intuitive nature. There have been many discussions on how to integrate the different capabilities and features of mainframes with the features that are required on a mobile application. The introduction of web services capabilities in CICS Transaction Server V3 provided the fundamental building blocks of service connectivity, enabling the adoption of service-oriented architecture (SOA), and underpinning today’s mobile solutions. CICS has continued to add new capabilities to the run time. From a mobile perspective, the introduction of the CICS TS Feature Pack for Mobile Extensions provides JSON and Representational State Transfer (REST)-conforming (RESTful) web service support, further enhancing the options for enterprise applications to mobile devices. Customers around the world use CICS TS to host hundreds of millions, and in some cases billions, of transactions per day. As the number of mobile devices worldwide continues to grow, so does the variety and volume of workload that they drive. CICS has the capacity to scale up in support of this increasing mobile workload, providing an exceptional platform for hosting mobile workloads.

This Article is Research By Pramod Chandran and published by IJSTE JOURNAL

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Design of High Bandwidth Step DGS and Slotted Strip Antenna for wifi Communication | VOL 2, ISS 8

Design of High Bandwidth Step DGS and Slotted Strip Antenna for wifi Communication

Patch antenna now become famous due their compact design high bandwidth and satisfactory gain and directivity. Patch antenna are using in the world now in enormous application where the demands of low space like in panels of satellite transponder and in mobile phones etc the paper present the new design of rectangular microstrip patch antenna for wifi communication. In the paper two antennas are designed first one is Rectangular microstrip patch antenna for 5.8 GHz communication. And second one is Rectangular microstrip patch antenna with step DGS strip antenna for wifi, property of both the antenna like simulated design, return loss, directivity, Radiation Pattern and bandwidth are discussed. This work shows that bandwidth of Antenna in RMPA with step DGS is increased about 71.3% which is very good enough for wifi communication, return losses of designed antenna is also decreased by 83.40%, Gain of the proposed antenna increases to 4.88dB from 4.749dB and Rectangular Microstrip Patch Antenna with step DGS and slot in the patch also reduces the size of antenna which is always a basic need of Patch antenna design system.

This Article is Research By Deepkia Saxena, Sonam Rathore and published by IJSTE JOURNAL

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Performance analysis of multi channel phashed array based on noise figure | IJSTE JOURNAL VOL 2, ISS 8

Performance analysis of multi channel phashed array based on noise figure

Sensitivity of the receiver is one of the important parameter of communication system. System noise figure contributes more roles in receiver sensitivity. In single channel receiver very low noise device is used at the RF front end section to improve the system noise figure. In this research work multi-channel receiver noise figure is analysed with different configuration. In each configuration theoretical noise figure calculated for multi-channel receiver and it compared with measured results. The theoretical calculation and Simulation in Advanced Design System (ADS) is done.

This Article is Research By K. Divya, Dr. R. M. S. Parvathi and published by IJSTE JOURNAL

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