55 GHz
DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... This article introduces some of the basic concepts of patch antennas. The main focus will be on optimizing of dimensions of patch antenna for WIMAX application with resonance frequency of 3.55 GHz. This design is ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... Figure7: Estimate parameter θˆ2 t : dash-dotted line for the classical adaptive control, dotted line for the case developed in [12], solid line for the no-switching multiple models adap[r] ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... The idea behind this step is to: • Have a clear idea of how many sensors were in the path of this attack and network data was not suspected, which may indicate a problem in decision sche[r] ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... interferences in spatial domain occupy the high frequency part of the spatial frequency domain, and in time domain, the burst interferences are temporal and un-continuous; the missile ob[r] ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... [13] R.K.Jena, Multi-Objective Node Placement Methodology for Wireless Sensor Network, International Journal of Computer Applications, IJCA Special Issue on MANETs 2, 2010, p.84–88.. Fah[r] ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... Most IT managers focus on just the cost of the physical IT infrastructure, but there are many additional benefits that can be derived from server virtualization include proper utilizatio[r] ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... Four new techniques based on fractal, namely FDFC fractal dimension from fractal codes, FDIFC fractal dimension image from fractal code, DIFC distance image from fractal code, and AIFC A[r] ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... ABSTRACT Looney’s fuzzy reasoning algorithm supported by Fuzzy Petri NetFPNis further extended for representing the fuzzy production rules in a knowledge based system which is provided w[r] ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... Keywords: Permanent Magnet Synchronous Motor PMSM, Vector Control, Genetic Algorithm GA, Observer Of Luenberger, Sliding Mode Controller.. surface, and make it evolve over with some mome[r] ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... While working towards developing an algorithm that will efficiently manage the hosts in cloud environment with minimum energy and minimum SLAV we developed a coding for host overutilizat[r] ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... 2.3 Embedding Algorithm We are using this algorithm based on simple LSB modification method to embed the Index File data with the Cover Image so as to generate the Stego Image.. Using th[r] ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... Figure 9 explains coding to calculate the need of production time according to the orders without using product inventory as the primary material.. The calculation of needs is taken from[r] ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... In terms of academic background, respondents with degree and above recorded highest average of technical awareness for Internet banking and shopping with 82.61% awareness while responden[r] ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... Packet loss occur during video streaming in UDP because of its unreliable service and UDP are in need of the error correction and retransmission mechanisms to avoid packet loss.. However[r] ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... Based on the S-BOX suggested in AES SBOX AES and depending on key used to encrypt the new plaintext substitution matrices are compted SBOXxor by the following process: • First of all sel[r] ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... In this study, After many investigations and comparisons between the performance of PNN with different types of features like standard deviation STD and RMS of each frequency bands coeff[r] ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... Therefore, and after applying a first filter on the fragments in order to select those corresponding to the course to be delivered, it will apply a second filter in order to select the f[r] ...
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DESIGN, ANALYSIS AND OPTIMIZATION OF A MICROSTRIP PATCH ANTENNA AT FREQUENCY 3 55 GHZ FOR WIMAX APPLICATION
... SMART TRANSMISSION POWER ADJUSTMENT ROUTING BASED ON CONNECTIVITY AND COVERAGE IN MOBILE ADHOC NETWORKS BHARATHIRAJA.R1, S.KARTHIK2 and V.P.. ARUNACHALAM3 1 Research Scholar, Lead Engine[r] ...
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Triple Band Notched UWB Antenna Design Using Electromagnetic Band Gap Structures
... 3.45 GHz with VSWR value of 4.6, in WLAN band the notch centred at 5.55 GHz with VSWR value of ...7.6 GHz with VSWR of ...3.45 GHz, 5.55 GHz and 7.6 GHz are found to be ...
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A Compact Dual-Band Patch Antenna for WLAN Applications
... Abstract—A compact dual-band patch antenna is proposed and measured in this paper. The proposed antenna employs a U-shaped slot and two mitered corners to achieve two operating frequency bands, 2.30 ∼ 2.50 GHz and ...
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