This is a skeleton file demonstrating the use of IEEEtran.cls with an IEEE journal paper.
To start writing your manuscript in Overleaf, simply click the 'Open as template' button above. Additional IEEE templates are also available - please use the tags below to view. These include: additional article templates for specific journals (e.g. IEEE Photonics), templates for conference papers, and user-submitted examples and adaptations.
Submission format for the International Microwave Symposium (MTT IMS 2014). Authors are invited to submit technical papers describing original work on radio-frequency, microwave, millimeter-wave, and terahertz (THz) theory and techniques.
The deadline for submission is 9 December 2013.
This is a skeleton file demonstrating the use of the IEEEtran.cls style with an IEEE journal paper, and with example bibliography files included.
These bibliography files are includes to provide one example of how to set up a bibliography for your IEEE paper.
For more information on using bibtex for references in your IEEE journal papers, see this FAQ.
IEEEtran.cls version: 1.8b
How to conceal objects from electromagnetic radiation has been a hot research topic. Radar is an object detection system that uses Radio waves to determine the range , angle, or velocity. A radar transmit radio waves or microwaves that reflect from any object in their path. A receive radar is typically the same system as transmit radar, receives and processes these reflected wave to determine properties of object. Different organizations are working onto hide object from the radar in outer space. Any confidential object can be taken through space without being detected by the enemies. This calls for necessity of devising new method to conceal an object electromagnetically.
Simultaneous information and energy transfer (SIET) is attracting much attention as an effective method to provide green energy supply for mobiles. However, low power level of harvested energy from RF spectrum limits application of this technique. Thanks to improvement of sensitivity and efficiency of RF energy harvesting circuit as well as dense deployment of small cell base stations, SIET becomes more practical. In this paper, we propose a unified receiver model for SIET in LTE-A small cell base station networks, formulate a feasibility problem with Poisson point process model and analyze the feasibility for a special and practical scenario. The results show that it is feasible for mobiles to charge the secondary battery with harvested energy from BSs, but it is still impractical to directly charge the primary battery or operate without any battery at all.
This demo file is intended to serve as a "starter file'' for IEEE conference papers produced under LaTeX.
This is one of a number of templates using the IEEE style that are available on Overleaf to help you get started - use the tags below to find more.