1,293 research outputs found
Stock assessment of soldier catfish Osteogeneiosus militaris along the northwest coast of India
Value of length growth parameters L∞, K and t(sub)0 from age-length relation obtained from length-frequency analysis for the soldier catfish stock were estimated to be 47.6 cm, 0.51 per year and 0.03 year respectively. The age at recruitment (t [sub]r) was 0.58 year and the age at first capture (t[sub]c) 0.83 year. The total mortality (Z) was 0.88 including the present natural mortality (M) of 0.84 and fishing mortality (F) of 0.04. The total stock of this fish along the Northwest coast of India was assessed to be 32,413 tons and the MSY 5,426 tons which is much higher than the current catch of 863.8 tons. The potential yield (P[sub]y) of 38.7 g per recruit could be obtained at the optimum of exploitation (t[sub]y) of 2.84 years
Real-coded genetic algorithm for system identification and controller tuning
AbstractThis paper presents an application of real-coded genetic algorithm (RGA) for system identification and controller tuning in process plants. The genetic algorithm is applied sequentially for system identification and controller tuning. First GA is applied to identify the changes in system parameters. Once the process parameters are identified, the optimal controller parameters are identified using GA. In the proposed genetic algorithm, the optimization variables are represented as floating point numbers. Also, cross over and mutation operators that can directly deal with the floating point numbers are used. The proposed approach has been applied for system identification and controller tuning in nonlinear pH process. The simulation results show that the GA based approach is effective in identifying the parameters of the system and the nonlinearity at various operating points in the nonlinear system
A Rapid Micropropagation of nodal explants of Eclipta alba (L.); A Multipurpose Medicinal Herb
An efficient in vitro regeneration protocol was developed for medicinally important plant Eclipta alba. Successful regeneration and multiplication of nodal explants of E. alba were obtained in cytokinin enriched B5 medium. Several cytokinins [6-benzylaminopurine (BAP), kinetin (KIN), thidiazuron (TDZ), gibberellic acid (GA3) and spermidine] were supplemented alone and its combinations for obtaining better results. The best growth frequency response was achieved in the combinations of 1.0 BAP + 0.3 KIN + 1.5 GA3 (mg/L) concentration (7.4 ± 0.9 cm shoot length & 100 % regeneration). Better roots were developed in half-strength B5 medium along with IBA (1.0 mg/L) hormone and exhibits maximum root length (7.0 ± 0.8cm) along with multiple roots (8.8 ± 0.8) at 92 %. The well-developed Plantlets were successfully acclimatized to plastic-cups containing autoclaved sand and garden soil (1:1) and kept undisturbed with plastic cover for maintaining the humidity. The plantlets were watered regularly and maintained at green house
Short term complex hydro thermal scheduling using integrated PSO-IBF algorithm
In this article, an integrated evolutionary technique such as particle swarm optimization (PSO) algorithm and improved bacterial foraging algorithm (IBFA) have been developed to provide an optimum solution to the scheduling problem with complex thermal and hydro generating stations. PSO algorithm is framed based on the intelligent behavior of the fish school and a flock of birds and the optimal solution in the multidimensional search region is achieved by assigning a random velocity to each potential solution (called the particle). BFA is designed by following the prey-seeking (chemotactic) nature of E. coli bacteria. This technique is followed in an improved manner to get the convergence rate in dynamic for a hyperspace problem by implementing a chemotactic step in a linearly decreased way instead of the static one. The effectiveness of this integrated algorithm is evaluated by using it in a complex thermal and hydro generating system. In this testing system, multiple numbers of cascaded reservoirs in hydro plants have a time coupling effect and thermal power units have a valve point loading effect. The simulation results indicate its merits by comparing it with other meta-heuristic techniques related to the fuel cost required to generate the thermal power.
Challenges in the registration of serial CT images from lung radiotherapy patients
Radiation induced lung damage is an unwanted side effect of
curative radiotherapy. Radiological findings are often used as indicators
of lung damage, which is identifiable as changes in the baseline imaging
features (e.g., anatomy shape, intensity and texture). In this work we
qualitatively investigate the challenges in registering baseline and followup CT images acquired 12 months after radiotherapy
Design, Development and Performance Evaluation of Eddy Current Displacement Sensor Based Pressure Sensor with Target Temperature Compensation
In Aerospace applications, pressure measurement plays a vital role as it serves as one of the input to onboard controller to aid decision- making on initiating or terminating some of the critical events. In this paper, the design aspects of pressure sensor using linear eddy current displacement sensor (ECDS) are presented along with its performance evaluation. The static calibration is carried out to select the best position of ECDS in the proposed pressure sensor. The effect of target temperature on sensor output is presented with test results to aid compensation. A compensation algorithm is developed to minimise the error due to target temperature. The developed compensation algorithm is validated using thermal calibration. The designed pressure sensor is calibrated using Arson dynamic pressure calibrator to evaluate its bandwidth. The calibration results are analysed to aid future sensor design towards improvement of accuracy, bandwidth and miniaturisation
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