The proceedings contain 53 papers. The special focus in this conference is on Intelligent computing in control and communication. The topics include: A Comparative Study of Unit Commitment Problem by Dynamic Programmi...
ISBN:
(纸本)9789811584381
The proceedings contain 53 papers. The special focus in this conference is on Intelligent computing in control and communication. The topics include: A Comparative Study of Unit Commitment Problem by Dynamic Programming and Genetic Algorithm;Robust Fuzzy Logic controller for DC Motor Stability Enhancement Under Load Disturbances;optimal Scheduling for Delay Management in Railway Network Using Hybrid Bat Algorithm;optimal Rescheduling of Real Power to Mitigate Congestion Using Elephant Herd Optimization;preface;A Fuzzy-Based STATCOM controller for Grid Interconnection of Fuel System to Improve Power Quality;adiabatic Logic-Based Area- and Energy-Efficient Full Adder Design;Comparative Analysis of Rapid Single Flux Quantum (RSFQ) Circuit Technique Multipliers;techno-Economic Material Demand-Based Model in Plastic Waste Management Using Metaheuristic Algorithms;breaking Down and Reduplication of Information in Cloud for Best Overall Performance and Protection;A Novel Modulating PID controller for a Speed control of BLDC Motor Adopting Flower Pollination Algorithm;shaped Beams from Circular Aperture Antennas;A Simple and Low-Cost HIL Solution for control of Power Electronic Converters;improved Harmonic Profile of Multilevel Inverter Topology with Shifted Carrier Modulation Technique;artificial Intelligence Based control Methods for Speed control of Wind Turbine Energy System;recent Trends and Challenges in Blockchain Technology;Comparison of Uplink Spectral Efficiency in Massive MIMO Systems;a Study on Static Call Admission control Policies for Wireless Mobile Cellular Networks;Design of Low PDP Ternary Circuits Utilizing Carbon Nanotube Field-Effect Transistors;Detection and Estimation of Multiple Point Targets for LFM Echo Using Compressed Sensing;Design of Dumbbell-Shaped MIMO Antenna for Wearable Applications.
An innovative smart wheelchair system designed to enhance the mobility and safety of individuals with disabilities. The proposed system utilizes a combination of accelerometer, gyroscopes, and MPU6050 sensors to detec...
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In this paper, capacitively coupled chopper stabilized amplifier is designed for bio-signal acquisition using CNTFET based *** based amplifier is used as core amplifier for the proposed *** for the chopper stabilized ...
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Traffic congestion poses a significant challenge in urban areas globally, resulting in wasted time, increased fuel consumption, and heightened pollution levels. Traditional traffic light systems often rely on fixed ti...
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This research study describes a pioneering program in Chandigarh aiming at reducing carbon emissions and optimizing traffic flow by combining Scalable Urban Traffic control with Vehicle-to-Infrastructure communication...
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Aerospace engineering design and manufacturing greatly rely on accurate and efficient plane wing diagram data extraction. This paper introduces an innovative technique for automating the process using state-of-the-art...
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The Autonomous Drilling Platform (ADP) revolutionizes directional drilling by allowing drillers to concentrate on performance-driven tasks rather than routine calculations and activities. The ADP enhances the communic...
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ISBN:
(纸本)9781959025641
The Autonomous Drilling Platform (ADP) revolutionizes directional drilling by allowing drillers to concentrate on performance-driven tasks rather than routine calculations and activities. The ADP enhances the communication workflow between geosteering and downhole rotary steerable steering settings by employing a systematic approach that integrates new targets, calculates feasible trajectories, and assesses their viability within the constraints of the well design. This seamless integration and automation significantly improve the drilling and steering efficiency of the directional drilling operations. The innovative platform enables real-time wellplan updates, effectively bridging the communication gap between surface parameters, drilling engineering, with its tool limitations and downhole tools automation. The platform facilitates a dynamic and prompt response to changing subsurface conditions, thereby optimizing drilling efficiency and accuracy. The integration of automated calculations and synchronization between surface and downhole automation systems allows field engineers to focus on performance-oriented activities. ADP automatically downlinks the updated directional drilling settings to the downhole tools to execute the revised trajectory. It also provides operators with remote access via a web interface, enabling the monitoring of details pertaining to directional drilling operations from any location worldwide. The ADP was implemented in phases for varying well complexity in the Permian operations in Midland and Delaware Basins. Consistent drilling performance has been a challenge due to inconsistencies in drilling practices, steering control and sub optimal drilling parameters for the target formations drilled. ADP enabled the execution team to focus on drilling performance with an interface that encompasses drilling parameters along with steering control recommendations. The integration of a data workflow enabled remote operations reducing personnel on s
Utilizing blockchain along with fog computing to improve secure data access control mechanisms within the realm of distributed data storage and authentication poses various challenges. One such hurdle is finding a bal...
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ISBN:
(纸本)9798350370249
Utilizing blockchain along with fog computing to improve secure data access control mechanisms within the realm of distributed data storage and authentication poses various challenges. One such hurdle is finding a balance between decentralization and scalability within blockchain technology. As the blockchain ledger grows, it may lead to increased latency and resource requirements. The goal of this research is to combine blockchain with fog computing, along with an algorithm for hybrid encryption, to improve the security and efficiency of data access control in distributed data storage as well as authentication. Authentication mechanisms leverage Multi-Factor Authentication (MFA) and Token-Based Authentication for heightened security. Token-Based Authentication employs dynamic codes generated by a physical or mobile token. Symmetric encryption ensures efficiency in data transmission, while asymmetric encryption provides secure key exchange Honey Encryption-based Hybrid Cryptographic Algorithm. The integration of the Zero Trust Security (ZTS) Model with Secure Multi-Party Computation (SMPC) enhances the security of data access and storage in distributed fog environments. Zero Trust emphasizes the necessity for continuous verification of user and device trustworthiness, irrespective of their location, reinforcing the principles of SMPC. MATLAB experiments were implemented to evaluate the efficacy of proposed mechanisms under a range of scenarios. Leveraging the platform's computational capabilities, simulations were conducted and analyzed to provide a comprehensive performance assessment of the proposed solutions, thereby informing the design and optimization of these mechanisms. The findings for encryption time and decryption time of these metrics reflect the durations needed to encode and decode data of varying sizes securely. The potential for the blockchain along with the fog computing model to ensure secure data access control in the future depends on further dev
Water is an essential part of our life and its high time to implement good water conservation ideas. In cities, drinking water is supplied by Municipal corporation for 1-2 hours in a day at a given scheduled time. It ...
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Organizations are heading towards a modernization journey. Cloud providers are playing a vital role in this journey. The industry is focused on cost efficiency and ROI since they need a huge investment for the moderni...
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