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1. Machine learning prediction and optimization of compressive strength for blended concrete by applying ANN and genetic algorithm

Author

Satyanarayana G. V. V., Vivek Kumar C., Karthikeyan R. M., Punitha A., Nikolai Ivanovich Vatin, Abhishek Joshi, and Laith Hussein

Subjects
Compressive strength, Alccofine, GGBFS, Machine learning, ANN, Genetic Algorithm, Engineering (General). Civil engineering (General), TA1-2040
Abstract

Before using concrete for a particular purpose, its strength must be determined because its physical properties vary depending on the type of supplementary cementitious material (SCMs). Initially, researchers anticipated it with statistical processes; more recently, they started implementing deep learning (DL) and machine learning (ML) models. This research employed ensemble machine learning (EML) approaches to predict the compressive strength (CS) of concrete developed for ground-granulated blast furnace slag (GGBFS) along with Alccofine 1203 (AF). Ensemble regressions of Random Forest Regression (RFR) and AdaBoost Regression (ABR) were considered for model prediction using the Jupyter Notebook. The models were created based on the outcome of the compressive strength under the 90 experimental conditions. Moreover, a comparative study was performed between the RFR and ABR to benchmark the proposed model against a given combination of features and CS. The experimental conditions were optimized using a genetic algorithm (GA) after the model was created by ANN. With the two EML algorithms, the smallest errors, along with the largest coefficient of determination, were observed in the RFR algorithm. It was recognized that the optimized value of CS is 48.606 MPa, and their optimized process elements such as cement, alccofine, GGBS, water, and days were 261.506 kg/m3, 0.055 kg/m3, 52.468 kg/m3, 141.007 L, and 27.999 days, respectively.

Published
2024
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2. Min-Time Escape of a Dubins Car from a Polygon

Author

Weintraub, Isaac E., Von Moll, Alexander, Casbeer, David, Manyam, Satyanarayana G, Pachter, Meir, and Taylor, Colin

Subjects
Electrical Engineering and Systems Science - Systems and Control, 49J15, 49N90, 51P05
Abstract

A turn constrained vehicle is initially located inside a polygon region and desires to escape in minimum time. First, the method of characteristics is used to describe the time-optimal strategies for reaching a line of infinite length. Next, the approach is extended to polygons constructed of a series of line segments. Using this construction technique, the min-time path to reach each edge is obtained; the resulting minimum of the set of optimal trajectories is then selected for escaping the polygon., Comment: 7 Pages, 6 Figures, Submitted to IFAC ACC, DISTRIBUTION STATEMENT A. Approved for public release. Distribution is unlimited; AFRL-2024-5262. This work is funded in-part by AFOSR, LRIR 24RQCOR002

Published
2024

3. Equivalence of Dubins Path on Sphere with Geographic Coordinates and Moving Frames

Author

Kumar, Deepak Prakash, Darbha, Swaroop, Manyam, Satyanarayana G., Casbeer, David W., and Pachter, Meir

Subjects
Mathematics - Optimization and Control
Abstract

In this article, two methods of addressing path planning for a Dubins vehicle moving on a sphere are considered, wherein either spherical coordinates or a moving frame are considered to describe the vehicle's motion. The primary contribution of this article is to show the equivalence of these two approaches, which in turn shows that the results known for the moving frame-based description transfer to the model utilizing spherical coordinates.

Published
2024

4. Multi Agent Pathfinding for Noise Restricted Hybrid Fuel Unmanned Aerial Vehicles

Author

Scott, Drew, Manyam, Satyanarayana G., Casbeer, David W., Kumar, Manish, and Weintraub, Isaac E.

Subjects
Mathematics - Optimization and Control, Computer Science - Robotics
Abstract

Multi Agent Path Finding (MAPF) seeks the optimal set of paths for multiple agents from respective start to goal locations such that no paths conflict. We address the MAPF problem for a fleet of hybrid-fuel unmanned aerial vehicles which are subject to location-dependent noise restrictions. We solve this problem by searching a constraint tree for which the subproblem at each node is a set of shortest path problems subject to the noise and fuel constraints and conflict zone avoidance. A labeling algorithm is presented to solve this subproblem, including the conflict zones which are treated as dynamic obstacles. We present the experimental results of the algorithms for various graph sizes and number of agents., Comment: 6 pages, 7 figures

Published
2024

5. Pursuit-Evasion on a Sphere and When It Can Be Considered Flat

Author

Milutinovic, Dejan, Von Moll, Alexander, Manyam, Satyanarayana G., Casbeer, David W., Weintraub, Isaac E., and Pachter, Meir

Subjects
Mathematics - Optimization and Control, Electrical Engineering and Systems Science - Systems and Control, Mathematics - Algebraic Geometry, Mathematics - Differential Geometry, 58E10, 86A30, 37D40, 91A23, 49L12, 49Q10
Abstract

In classical works on a planar differential pursuit-evasion game with a faster pursuer, the intercept point resulting from the equilibrium strategies lies on the Apollonius circle. This property was exploited for the construction of the equilibrium strategies for two faster pursuers against one evader. Extensions for planar multiple-pursuer single-evader scenarios have been considered. We study a pursuit-evasion game on a sphere and the relation of the equilibrium intercept point to the Apollonius domain on the sphere. The domain is a generalization of the planar Apollonius circle set. We find a condition resulting in the intercept point belonging to the Apollonius domain, which is the characteristic of the planar game solution. Finally, we use this characteristic to discuss pursuit and evasion strategies in the context of two pursuers and a single slower evader on the sphere and illustrate it using numerical simulations., Comment: 8 Pages, 5 figures, To be submitted to 2024 Conference on Decision and Control in Milan, Italy

Published
2024

6. Sampling-Based Risk-Aware Path Planning Around Dynamic Engagement Zones

Author

Wolek, Artur, Weintraub, Isaac E., Von Moll, Alexander, Casbeer, David, and Manyam, Satyanarayana G.

Subjects
Mathematics - Optimization and Control, Electrical Engineering and Systems Science - Systems and Control, 65K05, 05C05, 91G60, 70Q05, G.1.6
Abstract

Existing methods for avoiding dynamic engagement zones (EZs) and minimizing risk leverage the calculus of variations to obtain optimal paths. While such methods are deterministic, they scale poorly as the number of engagement zones increases. Furthermore, optimal-control based strategies are sensitive to initial guesses and often converge to local, rather than global, minima. This paper presents a novel sampling-based approach to obtain a feasible flight plan for a Dubins vehicle to reach a desired location in a bounded operating region in the presence of a large number of engagement zones. The dynamic EZs are coupled to the vehicle dynamics through its heading angle. Thus, the dynamic two-dimensional obstacles in the (x,y) plane can be transformed into three-dimensional static obstacles in a lifted (x,y,{\psi}) space. This insight is leveraged in the formulation of a Rapidly-exploring Random Tree (RRT*) algorithm. The algorithm is evaluated with a Monte Carlo experiment that randomizes EZ locations to characterize the success rate and average path length as a function of the number of EZs and as the computation time made available to the planner is increased., Comment: 6 pages, 6 figures, jointly submitted to ASME Letters in Dynamic Systems and Control and the 2024 Modeling, Estimation and Control Conference

Published
2024

10. Combating the COVID-19 pandemic in a resource-constrained setting: insights from initial response in India

Author

Rabbanie Tariq Wani, Paragkumar Dhirajlal Chavda, Siddharudha Shivalli, Mohan Bairwa, Madhur Verma, Pranab Chatterjee, Nitika Sharma, Sabyasachi Behera, Praveen Kulkarni, Archisman Mohapatra, Balaji Ramraj, Arvind Kumar Singh, Manish Kumar Singh, Ravi Rohilla, Bharti Chawla, Sumit Chawla, Rashmi Agarwalla, Shubhashri Sudhiendra Jahagirdar, Madan Mohan Majhi, Harshal Ramesh Salve, Pallavi Shukla, Kapil Yadav, Ramadass Sathiyamoorthy, Kaushik Sarkar, Soumya Swaroop Sahoo, Shamshad Ahmad, Dewesh Kumar, Anirban Chatterjee, Gaihemlung Pamei, Hariom Kumar Solanki, Shashanka Shekhar Chakraborty, Gitismita Naik, M Mohan Kumar, Chinnadurai Aravinda, Shilpa Karir, Jasmin Nilima Panda, Jaya Singh Kshatri, Smrutiranjan Nayak, Sithun Kumar Patro, Shib Sekhar Datta, Nilanjana Ghosh, Pritam Roy, Shankar Reddy Dudala, Rachana R Annadani, Malatesh Undi, Sudhir Prabhu, Santosh K Yatnatti, Rakesh N Pillai, Antony Stanley, Satyanarayana G Konda, Kajal Davara, Mihir Prafulbhai Rupani, Anuj Mundra, Akhil Dhanesh Goel, and Manoj Kumar Gupta

Subjects
Medicine (General), R5-920, Infectious and parasitic diseases, RC109-216
Abstract

The low-and-middle-income country (LMIC) context is volatile, uncertain and resource-constrained. India, an LMIC, has put up a complex response to the COVID-19 pandemic. Using an analytic approach, we have described India’s response to combat the pandemic during the initial months (from 17 January to 20 April 2020). India issued travel advisories and implemented graded international border controls between January and March 2020. By early March, cases started to surge. States scaled up movement restrictions. On 25 March, India went into a nationwide lockdown to ramp up preparedness. The lockdown uncovered contextual vulnerabilities and stimulated countermeasures. India leveraged existing legal frameworks, institutional mechanisms and administrative provisions to respond to the pandemic. Nevertheless, the cross-sectoral impact of the initial combat was intense and is potentially long-lasting. The country could have further benefited from evidence-based policy and planning attuned to local needs and vulnerabilities. Experience from India offers insights to nations, especially LMICs, on the need to have contextualised pandemic response plans.

Published
2020
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11. Noise Aware Path Planning and Power Management of Hybrid Fuel UAVs

Author

Scott, Drew, Manyam, Satyanarayana G., Weintraub, Isaac E., Casbeer, David W., and Kumar, Manish

Subjects
Mathematics - Optimization and Control, Mathematics - Combinatorics
Abstract

Hybrid fuel Unmanned Aerial Vehicles (UAV), through their combination of multiple energy sources, offer several advantages over the standard single fuel source configuration, the primary one being increased range and efficiency. Multiple power or fuel sources also allow the distinct pitfalls of each source to be mitigated while exploiting the advantages within the mission or path planning. We consider here a UAV equipped with a combustion engine-generator and battery pack as energy sources. We consider the path planning and power-management of this platform in a noise-aware manner. To solve the path planning problem, we first present the Mixed Integer Linear Program (MILP) formulation of the problem. We then present and analyze a label-correcting algorithm, for which a pseudo-polynomial running time is proven. Results of extensive numerical testing are presented which analyze the performance and scalability of the labeling algorithm for various graph structures, problem parameters, and search heuristics. It is shown that the algorithm can solve instances on graphs as large as twenty thousand nodes in only a few seconds., Comment: 11 pages, 12 figures

Published
2024

12. Assisted Path Planning for a UGV-UAV Team Through a Stochastic Network

Author

Bhadoriya, Abhay Singh, Rathinam, Sivakumar, Darbha, Swaroop, Casbeer, David W., and Manyam, Satyanarayana G.

Subjects
Computer Science - Robotics
Abstract

In this article, we consider a multi-agent path planning problem in a stochastic environment. The environment, which can be an urban road network, is represented by a graph where the travel time for selected road segments (impeded edges) is a random variable because of traffic congestion. An unmanned ground vehicle (UGV) wishes to travel from a starting location to a destination while minimizing the arrival time at the destination. UGV can traverse through an impeded edge but the true travel time is only realized at the end of that edge. This implies that the UGV can potentially get stuck in an impeded edge with high travel time. A support vehicle, such as an unmanned aerial vehicle (UAV) is simultaneously deployed from its starting position to assist the UGV by inspecting and realizing the true cost of impeded edges. With the updated information from UAV, UGV can efficiently reroute its path to the destination. The UGV does not wait at any time until it reaches the destination. The UAV is permitted to terminate its path at any vertex. The goal is then to develop an online algorithm to determine efficient paths for the UGV and the UAV based on the current information so that the UGV reaches the destination in minimum time. We refer to this problem as Stochastic Assisted Path Planning (SAPP). We present Dynamic $k$-Shortest Path Planning (D*KSPP) algorithm for the UGV planning and Rural Postman Problem (RPP) formulation for the UAV planning. Due to the scalability challenges of RPP, we also present a heuristic based Priority Assignment Algorithm (PAA) for the UAV planning. Computational results are presented to corroborate the effectiveness of the proposed algorithm to solve SAPP.

Published
2023

14. Damage capacity on RC structures using performance based analysis

Author

Spandana Kurelly, Raju Y.Kamala, Satyanarayana G V V, and Manchalwar Atulkumar

Subjects
Environmental sciences, GE1-350
Abstract

Performance based analysis is conducted on a structure to know the performance of building under severe earthquake loads with limited and well-distributed damage. To do this analysis a non-linear static analysis called pushover analysis had conducted on the structure. In this paper, an RC building with both 5 storey and 10 storey is designed for both gravity loads and earthquake resistant loads using SAP2000 software. Analysis is done in both X and Y direction to get a damage curve (pushover curve). By studying the damage curve, the results that obtained are earthquake resistant designed building had more strength when compared to gravity load designed building and it is better to consider earthquake in building design , because gravity loads alone cannot give the adequate results.

Published
2021
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15. Effect of joint rigidity on structural behavior of RC buildings

Author

Spandana Kurelly, Raju Y. Kamala, Satyanarayana G V V, and Manchalwar Atulkumar

Subjects
Environmental sciences, GE1-350
Abstract

Non-linear static analysis or pushover analysis is now-a –days generally preferred by many researchers to analyse the non-linear behaviour of the structure. Present study includes the effect of joint rigidity on the behaviour of the structure. A building is modeled with 5 and 10 story and designed for gravity and earthquake resistant loads by considering joint rigidity factor as 0 and 1. The analysis is done in both X and Y directions by using pushover analysis in SAP2000 software. Comparison is made between then capacity curves obtained from designed models of rigidity and non-rigidity models. From the results it is concluded that structure designed using joint rigidity has more strength when compared non-rigid joints.

Published
2021
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19. Virtual Target Selection for a Multiple-Pursuer Multiple-Evader Scenario

Author

Weintraub, Isaac E., Von Moll, Alexander, Casbeer, David W., and Manyam, Satyanarayana G.

Subjects
Mathematics - Optimization and Control
Abstract

This paper considers an M-pursuer N-evader scenario involving virtual targets. The virtual targets serve as an intermediary target for the pursuers, allowing the pursuers to delay their final assignment to the evaders. However, upon reaching the virtual target, the pursuers must decide which evader to capture. It is assumed that there are more pursuers than evaders and that the pursuers are faster than the evaders. The objective is two-part: first, assign each pursuer to a virtual target and evader such that the pursuer team's energy is minimized, and second, choose the virtual targets' locations for this minimization problem. The approach taken is to consider the Apollonius geometry between each pursuer's virtual target location and each evader. Using the constructed Apollonius circles, the pursuer's travel distance and maneuver at a virtual target are obtained. These metrics serve as a gauge for the total energy required to capture a particular evader and are used to solve the joint virtual target selection and pursuer-evader assignment problem. This paper provides a mathematical definition of this problem, the solution approach taken, and an example., Comment: AIAA SciTech 2024 Preprint

Published
2023

21. Assessment of Durability Elements and SEM/EDX Characterization of Ferrock Mortars

Author

Feroz, Shaik, Krishna, P. V. V. S. S. R., Satyanarayana, G. V. V., Pisello, Anna Laura, Editorial Board Member, Bibri, Simon Elias, Editorial Board Member, Ahmed Salih, Gasim Hayder, Editorial Board Member, Battisti, Alessandra, Editorial Board Member, Piselli, Cristina, Editorial Board Member, Strauss, Eric J., Editorial Board Member, Matamanda, Abraham, Editorial Board Member, Gallo, Paola, Editorial Board Member, Marçal Dias Castanho, Rui Alexandre, Editorial Board Member, Chica Olmo, Jorge, Editorial Board Member, Bruno, Silvana, Editorial Board Member, He, Baojie, Editorial Board Member, Niglio, Olimpia, Editorial Board Member, Pivac, Tatjana, Editorial Board Member, Olanrewaju, AbdulLateef, Editorial Board Member, Pigliautile, Ilaria, Editorial Board Member, Karunathilake, Hirushie, Editorial Board Member, Fabiani, Claudia, Editorial Board Member, Vujičić, Miroslav, Editorial Board Member, Stankov, Uglješa, Editorial Board Member, Sánchez, Angeles, Editorial Board Member, Jupesta, Joni, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Shtylla, Saimir, Editorial Board Member, Alberti, Francesco, Editorial Board Member, Buckley, Ayşe Özcan, Editorial Board Member, Mandic, Ante, Editorial Board Member, Ahmed Ibrahim, Sherif, Editorial Board Member, Teba, Tarek, Editorial Board Member, Al-Kassimi, Khaled, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Trapani, Ferdinando, Editorial Board Member, Magnaye, Dina Cartagena, Editorial Board Member, Chehimi, Mohamed Mehdi, Editorial Board Member, van Hullebusch, Eric, Editorial Board Member, Chaminé, Helder, Editorial Board Member, Della Spina, Lucia, Editorial Board Member, Aelenei, Laura, Editorial Board Member, Parra-López, Eduardo, Editorial Board Member, Ašonja, Aleksandar N., Editorial Board Member, Amer, Mourad, Series Editor, Vijayan, Vijeesh, editor, Shetty, Rashmi P., editor, and Pai, Srinivasa P., editor

Published
2024
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22. Experimental Studies on Strength and Durability Properties of Structural Lightweight Concrete Using Pumice as a Coarse Aggregate and Polypropylene Fibers

Author

Varikuppala, Lalitha, Satyanarayana, G V V, Pisello, Anna Laura, Editorial Board Member, Bibri, Simon Elias, Editorial Board Member, Ahmed Salih, Gasim Hayder, Editorial Board Member, Battisti, Alessandra, Editorial Board Member, Piselli, Cristina, Editorial Board Member, Strauss, Eric J., Editorial Board Member, Matamanda, Abraham, Editorial Board Member, Gallo, Paola, Editorial Board Member, Marçal Dias Castanho, Rui Alexandre, Editorial Board Member, Chica Olmo, Jorge, Editorial Board Member, Bruno, Silvana, Editorial Board Member, He, Baojie, Editorial Board Member, Niglio, Olimpia, Editorial Board Member, Pivac, Tatjana, Editorial Board Member, Olanrewaju, AbdulLateef, Editorial Board Member, Pigliautile, Ilaria, Editorial Board Member, Karunathilake, Hirushie, Editorial Board Member, Fabiani, Claudia, Editorial Board Member, Vujičić, Miroslav, Editorial Board Member, Stankov, Uglješa, Editorial Board Member, Sánchez, Angeles, Editorial Board Member, Jupesta, Joni, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Shtylla, Saimir, Editorial Board Member, Alberti, Francesco, Editorial Board Member, Buckley, Ayşe Özcan, Editorial Board Member, Mandic, Ante, Editorial Board Member, Ahmed Ibrahim, Sherif, Editorial Board Member, Teba, Tarek, Editorial Board Member, Al-Kassimi, Khaled, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Trapani, Ferdinando, Editorial Board Member, Magnaye, Dina Cartagena, Editorial Board Member, Chehimi, Mohamed Mehdi, Editorial Board Member, van Hullebusch, Eric, Editorial Board Member, Chaminé, Helder, Editorial Board Member, Della Spina, Lucia, Editorial Board Member, Aelenei, Laura, Editorial Board Member, Parra-López, Eduardo, Editorial Board Member, Ašonja, Aleksandar N., Editorial Board Member, Amer, Mourad, Series Editor, Vijayan, Vijeesh, editor, Shetty, Rashmi P., editor, and Pai, Srinivasa P., editor

Published
2024
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23. Optimization of Mechanical Properties for High-Strength Concrete by Artificial Neural Network Modelling

Author

Vivek Kumar, C., Babu, Repati Mohan, Satyanarayana, G. V. V., Pisello, Anna Laura, Editorial Board Member, Bibri, Simon Elias, Editorial Board Member, Ahmed Salih, Gasim Hayder, Editorial Board Member, Battisti, Alessandra, Editorial Board Member, Piselli, Cristina, Editorial Board Member, Strauss, Eric J., Editorial Board Member, Matamanda, Abraham, Editorial Board Member, Gallo, Paola, Editorial Board Member, Marçal Dias Castanho, Rui Alexandre, Editorial Board Member, Chica Olmo, Jorge, Editorial Board Member, Bruno, Silvana, Editorial Board Member, He, Baojie, Editorial Board Member, Niglio, Olimpia, Editorial Board Member, Pivac, Tatjana, Editorial Board Member, Olanrewaju, AbdulLateef, Editorial Board Member, Pigliautile, Ilaria, Editorial Board Member, Karunathilake, Hirushie, Editorial Board Member, Fabiani, Claudia, Editorial Board Member, Vujičić, Miroslav, Editorial Board Member, Stankov, Uglješa, Editorial Board Member, Sánchez, Angeles, Editorial Board Member, Jupesta, Joni, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Shtylla, Saimir, Editorial Board Member, Alberti, Francesco, Editorial Board Member, Buckley, Ayşe Özcan, Editorial Board Member, Mandic, Ante, Editorial Board Member, Ahmed Ibrahim, Sherif, Editorial Board Member, Teba, Tarek, Editorial Board Member, Al-Kassimi, Khaled, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Trapani, Ferdinando, Editorial Board Member, Magnaye, Dina Cartagena, Editorial Board Member, Chehimi, Mohamed Mehdi, Editorial Board Member, van Hullebusch, Eric, Editorial Board Member, Chaminé, Helder, Editorial Board Member, Della Spina, Lucia, Editorial Board Member, Aelenei, Laura, Editorial Board Member, Parra-López, Eduardo, Editorial Board Member, Ašonja, Aleksandar N., Editorial Board Member, Amer, Mourad, Series Editor, Vijayan, Vijeesh, editor, Shetty, Rashmi P., editor, and Pai, Srinivasa P., editor

Published
2024
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24. Experimental Investigation on Flexural Strength of Bamboo Reinforced Concrete Beams

Author

Boodida, Rakesh Kumar, Satyanarayana, G. V. V., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Pathak, Krishna Kant, editor, Bandara, J. M. S. J., editor, and Agrawal, Ramakant, editor

Published
2024
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25. Analysis and Design of Irregular Multi-story Building Having Visco-elastic Dampers

Author

Kumar, Jagannadham Rohith, Satyanarayana, G. V. V., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Pathak, Krishna Kant, editor, Bandara, J. M. S. J., editor, and Agrawal, Ramakant, editor

Published
2024
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26. Effect of Incremental Loading with Construction Sequence Analysis of an RCC Floating Column Building Located in High Seismic Prone Areas

Author

Ganesh, Aleti, Vivek Kumar, C., Satyanarayana, G. V. V., Himavarsha, Joga, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Pathak, Krishna Kant, editor, Bandara, J. M. S. J., editor, and Agrawal, Ramakant, editor

Published
2024
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27. Development of Linear Battery Model for Path Planning with Mixed Integer Linear Programming: Simulated and Experimental Validation

Author

Scott, Drew, Manyam, Satyanarayana G., Casbeer, David W., Kumar, Manish, Weintraub, Isaac E., and Rothenberger, Michael J.

Subjects
Mathematics - Optimization and Control
Abstract

Mixed Integer Linear Programs (MILPs) are often used in the path planning of both ground and aerial vehicles. Such a formulation of the path planning problem requires a linear objective function and constraints, limiting the fidelity of the the tracking of vehicle states. One such parameter is the state of charge of the battery used to power the vehicle. Accurate battery state estimation requires nonlinear differential equations to be solved. This state estimation is important in path planning to ensure flyable paths, however when using MILPs to formulate the path planning problem these nonlinear equations cannot be implemented. Poor accuracy in battery estimation during the path planning runs the risk of the planned path being feasible by the estimation model but in reality will deplete the battery to a critical level. To the end of higher accuracy battery estimation within a MILP, we present here a simple linear battery model which predicts the change in state-of-charge (SOC) of a battery given a power draw and duration. This model accounts for changes in battery voltage due to applied electrical load and changes in battery SOC. The battery model is presented and then tested against alternate battery models in numerical and in experimental tests. Further, the effect the proposed linear model has over a simpler SOC estimation on the time-to-solve a resource constrained shortest path problem is also evaluated, implemented in two different algorithms. It is seen that the linear model performs well in battery state estimation while remaining implementable in a Linear Program or MILP, with little affect on the time-to-solve., Comment: 7 pages, 6 figures, draft for paper to be submitted to 2023 American Controls Conference

Published
2022

28. Path Planning and Energy Management of Hybrid Air Vehicles for Urban Air Mobility

Author

Manyam, Satyanarayana G., Casbeer, David W., Darbha, Swaroop, Weintraub, Isaac E., and Kalyanam, Krishna

Subjects
Mathematics - Optimization and Control
Abstract

A novel coupled path planning and energy management problem for a hybrid unmanned air vehicle is considered, where the hybrid vehicle is powered by a dual gas/electric system. Such an aerial robot is envisioned for use in an urban setting where noise restrictions are in place in certain zones necessitating battery only operation. We consider the discrete version of this problem, where a graph is constructed by sampling the boundaries of the restricted zones, and develop a path planning algorithm. The planner simultaneously solves the path planing along with the energy mode switching control, under battery constraints and noise restrictions. This is a coupled problem involving discrete decision making to find the path to travel, and determining the state of charge of the battery along the path, which is a continuous variable. A sampling based algorithm to find near optimal solution to this problem is presented. To quantify the efficacy of the solution, an algorithm that computes tight lower bounds is also presented. The algorithms presented are verified using numerical simulations, and the average gap between the feasible solutions (upper bounds) and the lower bounds are, empirically, shown to be within 15% of each other.

Published
2022

29. Assisted Shortest Path Planning for a Convoy through a Repairable Network

Author

Bhadoriya, Abhay Singh, Montez, Christopher, Rathinam, Sivakumar, Darbha, Swaroop, Casbeer, David W., and Manyam, Satyanarayana G.

Subjects
Computer Science - Robotics, Mathematics - Combinatorics
Abstract

In this article, we consider a multi-agent path planning problem in a partially impeded environment. The impeded environment is represented by a graph with select road segments (edges) in disrepair impeding vehicular movement in the road network. A convoy wishes to travel from a starting location to a destination while minimizing some accumulated cost. The convoy may traverse an impeded edge for an additional cost (associated with repairing the edge) than if it were unimpeded. A second vehicle, referred to as a service vehicle, is simultaneously deployed with the convoy. The service vehicle assists the convoy by repairing an edge, reducing the cost for the convoy to traverse that edge. The convoy is permitted to wait at any vertex to allow the service vehicle to complete repairing an edge. The service vehicle is permitted to terminate its path at any vertex. The goal is then to find a pair of paths so the convoy reaches its destination while minimizing the total time (cost) the two vehicles are active, including any time the convoy waits. We refer to this problem as the Assisted Shortest Path Problem (ASPP). We present a generalized permanent labeling algorithm to find an optimal solution for the ASPP. We also introduce additional modifications to the labeling algorithm to significantly improve the computation time and refer to the modified labeling algorithm as $GPLA^*$. Computational results are presented to illustrate the effectiveness of $GPLA^*$ in solving the ASPP. We then give concluding remarks and briefly discuss potential variants of the ASPP for future work.

Published
2022
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30. Optimal Geodesic Curvature Constrained Dubins' Paths on a Sphere

Author

Darbha, Swaroop, Pavan, Athindra, Rajagopal, K. R., Rathinam, Sivakumar, Casbeer, David W., and Manyam, Satyanarayana G.

Subjects
Mathematics - Optimization and Control
Abstract

In this article, we consider the motion planning of a rigid object on the unit sphere with a unit speed. The motion of the object is constrained by the maximum absolute value, $U_{max}$ of geodesic curvature of its path; this constrains the object to change the heading at the fastest rate only when traveling on a tight smaller circular arc of radius $r <1$, where $r$ depends on the bound, $U_{max}$. We show in this article that if $0 \frac{1}{2}$, while paths of the above type may cease to exist depending on the boundary conditions and the value of $r$, optimal paths may be concatenations of more than three circular arcs.

Published
2022

31. Primary marginal zone B-cell lymphoma of appendix

Author

Radha S, Afroz Tameem, and Satyanarayana G

Subjects
Appendix, marginal zone lymphoma, Pathology, RB1-214, Microbiology, QR1-502
Abstract

Primary lymphomas of appendix are extremely rare tumors. The first case of primary lymphoma of appendix was reported by Warren in the year 1898. Incidence of primary lymphoma of appendix is 0.015% of all gastrointestinal lymphomas. This is a report of primary marginal zone B-cell lymphoma of appendix which presented as appendicular mass. As some cases are incidentally discovered, this case emphasizes that histological examination of all appendicectomy specimens is mandatory.

Published
2008

47. Analysis of Bandwidth Consumption in VoIP

Author

Sai Prasanthi, M., Yuva Krishna Kishore, I., Satyanarayana, G., Vanga, Sai Venkata Reddy, Prasad, Pamulapati Nitheesh, Howlett, Robert J., Series Editor, Jain, Lakhmi C., Series Editor, Karuppusamy, P., editor, Perikos, Isidoros, editor, and García Márquez, Fausto Pedro, editor

Published
2022
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