Arithmetic Operations in Multi-Valued Logic

This paper presents arithmetic operations like addition, subtraction and multiplications in Modulo-4 arithmetic, and also addition, multiplication in Galois field, using multi-valued logic (MVL). Quaternary to binary and binary to quaternary converters are designed using down literal circuits. Negation in modular arithmetic is designed with only one gate. Logic design of each operation is achieved by reducing the terms using Karnaugh diagrams, keeping minimum number of gates and depth of net in to consideration. Quaternary multiplier circuit is proposed to achieve required optimization. Simulation result of each operation is shown separately using Hspice.Comment: 12 Pages, VLSICS Journal 201

Wound healing property of paroxetine in immunosuppressed albino rats

Background: The objectives of this study were to evaluate the wound healing activity of Paroxetine in different wound models in wistar rats and to study its effects on dexamethasone suppressed wound healing.Methods: For assessment of wound healing activity, excision and incision wound models were used. Group I was assigned as control, orally, Group II received Paroxetine, i.p, Group III received Dexamethasone intramuscularly (i.m) and Group IV received Dexamethasone i.m and Paroxetine, i.p. Parameters observed were epithelization and wound contraction of excision model and breaking strength of incision wound model.Results: In incision model, it was noted that the breaking strength was not significantly increased in paroxetine treated group when compared to control group. Paroxetine hastened the period of epithelization and the effect of dexamethasone was reversed by paroxetine in incision and excision modelsConclusion: It is concluded that Paroxetine could be an effective agent for healing wounds in immunocompromised patients

Design and Implementation of Integer Transform and Quantization Processor for H.264 Encoder on FPGA

This paper proposes a novel implementation of the core processors, the integer transform and quantization for H.264 video encoder using an FPGA. It is capable of processing the picture frames with the desired compression controlled by the user input. The algorithm and architecture of the components of the video encoder namely, integer transformation, quantization were developed, designed and coded in Verilog. The complete H.264 video encoder was coded in Matlab in order to verify the results of the Verilog implementation. The processor is implemented on a Xilinx Vertex – II Pro XC2VP30 FPGA. The gate count of the implementation is approximately 1,057,000 working at a frequency of 208 MHz. It can process 1024x768 pixel color images in 4:2:0 format at 25 frames per second. The reconstructed picture quality is better than 35 dB

Design and Implementation of Image Compression Encoder using Orthogonal Approximation DCT

Image Compression is usually carried out using discrete cosine transform (DCT) because compressed image using DCT will take less memory to store the image and quality of the image will be good compared JPEG and HEVC. But, in this work an attempt is made to achieve compression using Approximation DCT (ADCT). ADCT is useful for reducing its computational complexity without affecting its coding performance. It provides better image and video compression compared to the DCT. ADCT is orthogonal and it has lower structural complexity compared to DCT. The unique feature of the ADCT is that it could be configured for the computation of the 32 point ADCT or for parallel computation of two16 point ADCTs or four 8 points ADCTs. It has many advantages in terms of orthogonality, structural simplicity and lower computational complexity. The proposed ADCT is implemented using Verilog and Simulated by ModelSim and synthesized by Xilinx ISE 9.1i. Results are compared with 16 point ADCT with 16 point DCT implementation. The target device is XC5vtx330t-2ff1738. The 16 point ADCT implementation results in a saving of 28.37% IOBs and 63% of LUTs, compared to existing 16 point DCT implementation

Deploying Health Monitoring ECU Towards Enhancing the Performance of In-Vehicle Network

Electronic Control Units (ECUs) are the fundamental electronic building blocks of any automotive system. They are multi-purpose, multi-chip and multicore computer systems where more functionality is delivered in software rather than hardware. ECUs are valuable assets for the vehicles as critical time bounded messages are communicated through. Looking into the safety criticality, already developed mission critical systems such as ABS, ESP etc, rely fully on electronic components leading to increasing requirements of more reliable and dependable electronic systems in vehicles. Hence it is inevitable to maintain and monitor the health of an ECU which will enable the ECUs to be followed, assessed and improved throughout their life-cycle starting from their inception into the vehicle. In this paper, we propose a Health monitoring ECU that enables the early trouble shooting and servicing of the vehicle prior to any catastrophic failure.Comment: 7 pages, 4 figures, FCST 201

Standardization of the method for estimation of ethambutol in pharmaceutical preparations and biological fluid

A simple column chromatographic method for determination of ethambutol (EMB) in pharmaceutical preparations containing EMB in combination with other anti-TB drugs is presented. The method involved extraction of EMB into an organic solvent. followed by basification and column chromatographic separation on Amberlite CG 50 (100-200 mesh) and elution with suitable eluants and estimation at a wavelength of 270 nm. The assay was linear from 25 to 400 μg/ml. The relative standard deviations of intra and inter day assays were lower than 5%. Ethambutol was recovered from human urine quantitatively and stable for a period of atleast one week in urine stored at-20°C

Shock stand-off distance visualization in hypersonic shock tunnel using electrical discharge technique

Visualization of the detached shock wave that forms ahead of a blunt body flying at hypersonic Mach number using electrical discharge technique is a simple and convenient technique to measure the stand-off distance experimentally in an hypersonic shock tunnel. In this technique a thin sheet of electrical discharge generated between a point electrode attached to the wall of the test section and a line electrode embedded on the model surface reveals the position of the shock wave around the body in hypersonic flow. In this paper we present the details of this technique and sample results obtained for typical body shapes tested in HST2 shock tunnel at a freestream Mach number of 5.75. The detached shock waves in front of the test models are clearly visualized using this technique. The shock stand-off distance estimated based on the numerical results for a large angle blunt cone obtained using a commercial CFD code match well with the experimentally measured value. These results clearly demonstrate the suitability of the electrical discharge technique for visualizing the flowfields in hypersonic testing facilities having very short test time