Task-5.4:Development of statistical / artificial intelligence (AI) models to quantify the damage state of buildings

Task – 5.4: Development of statistical / artificial intelligence (AI) models to quantify the damage state of buildings Task Leader:-  J l Raheja Objective: The goal is to implement damage detection algorithms using multi-scale sensing data from a network of wireless sensors that is scalable and robust, utilizing statistical/Artificial Intelligence (AI) models to quantify the damage…

Task-5.3:Design & Development of ARM and FPGA Processor and Sensor Placement Optimization

Task – 5.3: Design & Development of ARM and FPGA Processor and Sensor Placement Optimization Task Leader:-  Kota Solomon Raju Objective: Design of wireless sensor network system (along with sensor placement optimisation) to sense, transmit, analyze and continuously monitor the physical parameters viz. vibration, temperature, humidity, wind speed, crack width and corrosion; which describes the health…

Task-5.2:Development of Wireless Sensors, Interrogator System and technique for wireless link for Buildings

Task – 5.2: Development of Wireless Sensors, Interrogator System and technique for wireless link for Buildings Task Leader:-  R. Bhatnagar Objective: Development of interfaces for wireless transmission of the data from sensors and arrays based on MEMS with sensor interface, required computation and actuation with wireless transceiver. Data Mining using advanced computational techniques Development of instrumentation,…

Task-5.1: Development of Fiber Bragg Grating (FBG) Sensors and Interrogator System for Buildings

Task – 5.1: Development of Fiber Bragg Grating (FBG) Sensors and Interrogator System for Buildings Task Leader:-  Somnath Bandyopadhyay, Palas Biswas Objective: Development of packaged fiber optic sensors for structural health monitoring as per the design requirement of CBRI for use in buildings Development of nodal sensor interrogators equipped with wireless data transfer Scope of Work: Identification…

Task-4.2: Post Disaster Management – Design and Development of Transitory Houses for Disaster Vulnerable Rural Sectors in the North Eastern Region

Task – 4.2: Post Disaster Management – Design and Development of Transitory Houses for Disaster Vulnerable Rural Sectors in the North Eastern Region Task Leader:-   Mr. Dipankar Neog Objective: Design and Development of Transitory Houses for Disaster Vulnerable Rural Sectors in the North Eastern Region Scope of Work: Selection of suitable local materials Design of…

Task-4.1: Design and development of disaster resistant intermediate shelters for Western Himalayan region

Task – 4.1: Design and development of disaster resistant intermediate shelters for Western Himalayan region Task Leader:-  Dr S.K.Negi Objective: Design and development of disaster resistant Intermediate Shelters for Western Himalayan Region Scope of Work: Field Studies to carry out comparative assessment of different types of intermediate shelters developed by various organizations and to indentify the…

Task-3.3: Development of fire-resistant coating on structural elements

Task – 3.3: Development of fire-resistant coating on structural elements Task Leader:-  Kausik Dana Objective: To develop a synergistic composition for application as a fire-resistant coating on structural materials Scope of Work: Formulation of a synergistic composition Detail characterization and analysis of the developed composition Optimization of the final composition based on analysis Application of developed…

Task-3.2: Fire performance evaluation of structural elements and rehabilitation measures

Task – 3.2: Fire performance evaluation of structural elements and rehabilitation measures Task Leader:-  Suvir Singh Objective: To develop a methodology for the rehabilitation of fire damaged structural elements, prediction of fire behaviour of structural elements and fire performance enhancement. Scope of Work: Up gradation of experimental set-up as per the requirement of the experimental studies…

Task-3.1: Development of Low Ozone Depletion Potential (0.01-0.5) innovative fire suppression system

Task – 3.1: Development of Low Ozone Depletion Potential (0.01-0.5) innovative fire suppression system Task Leader:-  R.S. Chimote Objective: Development of water-mist based fire extinguisher Development of evaluation facilities for fire extinguishing system Scope of the work: Experimental Set-up for 1m2 size Turbulent diffusion Fires Capability enhancement of CFD Model of 1m2 size fire with extinguishment…

Task-2.3: Seismic resistance of confined masonry constructions under different axial stress

Task – 2.3: Seismic resistance of confined masonry constructions under different axial stress Task Leader:-  Ajay Chourasia Objective: Evaluate the efficacy of confined masonry construction & its strengthening under different axial loads under seismic excitation, in Indian Context to assess structural capacity in terms of strength, stiffness, deformation, energy dissipation and develop finite element model thereof.…