12 results on '"SAMARAKOON, S. M. BHAGYA P."'
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2. Adapting approaching proxemics of a service robot based on physical user behavior and user feedback
- Author
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Samarakoon, S. M. Bhagya P., Muthugala, M. A. Viraj J., Jayasekara, A. G. Buddhika P., and Elara, Mohan Rajesh
- Published
- 2023
- Full Text
- View/download PDF
3. Toward obstacle-specific morphology for a reconfigurable tiling robot
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Samarakoon, S. M. Bhagya P., Muthugala, M. A. Viraj J., and Elara, Mohan Rajesh
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- 2023
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- View/download PDF
4. Application of an adapted FMEA framework for robot-inclusivity of built environments
- Author
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Ng, Y. J., Yeo, Matthew S. K., Ng, Q. B., Budig, Michael, Muthugala, M. A. Viraj J., Samarakoon, S. M. Bhagya P., and Mohan, R. E.
- Published
- 2022
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5. Internal Rehearsals for a Reconfigurable Robot to Improve Area Coverage Performance.
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SAMARAKOON, S. M. BHAGYA P., MUTHUGALA, M. A. VIRAJ J., and ELARA, MOHAN RAJESH
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REHEARSALS , *GENETIC algorithms , *COGNITIVE ability , *ROBOTS , *MOBILE robots - Abstract
Reconfigurable robots are deployed for applications demanding area coverage, such as cleaning and inspections. Reconfiguration per context, considering beyond a small set of predefined shapes, is crucial for area coverage performance. However, the existing area coverage methods of reconfigurable robots are not always effective and require improvements for ascertaining the intended goal. Therefore, this article proposes a novel coverage strategy based on internal rehearsals to improve the area coverage performance of a reconfigurable robot. In this regard, a reconfigurable robot is embodied with the cognitive ability to predict the outcomes of its actions before executing them. A genetic algorithm uses the results of the internal rehearsals to determine a set of the robot's coverage parameters, including positioning, heading, and reconfiguration, to maximize coverage in an obstacle cluster encountered by the robot. The experimental results confirm that the proposed method can significantly improve the area coverage performance of a reconfigurable robot. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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6. Insights from autonomy trials of a self‐reconfigurable floor‐cleaning robot in a public food court.
- Author
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Wijegunawardana, I. D., Muthugala, M. A. Viraj J., Samarakoon, S. M. Bhagya P., Hua, Ong Jun, Padmanabha, Saurav Ghante Anantha, and Elara, Mohan Rajesh
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FOOD courts ,ROBOTIC path planning ,AUTONOMOUS robots ,FIELD research ,POTENTIAL field method (Robotics) ,TRIALS (Law) - Abstract
As autonomous cleaning robots advance, we expect certain features, such as higher area coverage and robustness. To explore these features and their challenges, we need tools and strategies that allow us to develop them rapidly. In this paper, we present lessons learned and results while performing 3 months long field trials on the autonomy of a self‐reconfigurable floor‐cleaning robot. The autonomy here includes path planning and navigation of the robot for coverage in a public food court. The environment of the food court is often subjected to alterations due to human activities. One of the main contributions of this paper is proposing a task‐level execution system to deploy the cleaning robot in an actual use case scenario. We also provide in‐depth discussions on the solutions and the implementation strategies we found in accomplishing goals. These findings would be helpful in conducting autonomy development targeted for field deployments of self‐reconfigurable robots and cleaning robots. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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7. FMEA‐Based Coverage‐Path‐Planning Strategy for Floor‐Cleaning Robots.
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Wijegunawardana, Isira D., Samarakoon, S. M. Bhagya P., Muthugala, M. A. Viraj J., and Elara, Mohan Rajesh
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FAILURE mode & effects analysis ,ROBOT motion ,MOBILE robots ,ROBOTS ,DOMESTIC space - Abstract
Floor‐cleaning robots play a crucial role in both industrial and domestic spaces. However, these robots often face challenges due to hazardous components in their environment, which can cause them to fail and prevent them from performing at their best. This situation necessitates continuous research in the field of floor‐cleaning robots. However, most of these efforts focus on improving the robots' perception capabilities by incorporating additional sensors. Nevertheless, incorporating more sensors is an expensive solution for most cleaning robots. Alternatively, in this research, the feasibility of introducing a safe path on a predefined hazard map is explored. The proposed method aims to trade‐off between area coverage and the safety of the cleaning robot. Herein, the failure mode and effect analysis (FMEA) method is introduced as a tool to classify the hazards and implement a safety‐ensured coverage path‐planning process. In this approach, the risk factor defined for a point in the environment serves as the key parameter to assess the safety of the algorithm's suggested path. To validate and evaluate the proposed method, this article utilizes the hTetro mobile robot. In the experimental results, it is demonstrated that the proposed method can reduce high‐risk movements of the robot compared to existing methods. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
8. A Novel Path Planning Strategy for a Cleaning Audit Robot Using Geometrical Features and Swarm Algorithms.
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Pathmakumar, Thejus, Muthugala, M. A. Viraj J., Samarakoon, S. M. Bhagya P., Gómez, Braulio Félix, and Elara, Mohan Rajesh
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POTENTIAL field method (Robotics) ,ENVIRONMENTAL auditing ,ANT algorithms ,AUTONOMOUS robots - Abstract
Robot-aided cleaning auditing is pioneering research that uses autonomous robots to assess a region's cleanliness level by analyzing the dirt samples collected from various locations. Since the dirt sample gathering process is more challenging, adapting a coverage planning strategy from a similar domain for cleaning is non-viable. Alternatively, a path planning approach to gathering dirt samples selectively at locations with a high likelihood of dirt accumulation is more feasible. This work presents a first-of-its-kind dirt sample gathering strategy for the cleaning auditing robots by combining the geometrical feature extraction and swarm algorithms. This combined approach generates an efficient optimal path covering all the identified dirt locations for efficient cleaning auditing. Besides being the foundational effort for cleaning audit, a path planning approach considering the geometric signatures that contribute to the dirt accumulation of a region has not been device so far. The proposed approach is validated systematically through experiment trials. The geometrical feature extraction-based dirt location identification method successfully identified dirt accumulated locations in our post-cleaning analysis as part of the experiment trials. The path generation strategies are validated in a real-world environment using an in-house developed cleaning auditing robot BELUGA. From the experiments conducted, the ant colony optimization algorithm generated the best cleaning auditing path with less travel distance, exploration time, and energy usage. [ABSTRACT FROM AUTHOR]
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- 2022
- Full Text
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9. Robot-Inclusive False Ceiling Design Guidelines.
- Author
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Yeo, Matthew S. K., Samarakoon, S. M. Bhagya P., Ng, Qi Boon, Ng, Yi Jin, Muthugala, M. A. Viraj J., Elara, Mohan Rajesh, and Yeong, Raymond W. W.
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CEILINGS ,ROBOT design & construction ,MOBILE robots ,OBSERVABILITY (Control theory) ,PLUMBING ,DESIGN - Abstract
False ceilings are often utilised in residential and commercial spaces as a way to contain and conceal necessary but unattractive building infrastructure, including mechanical, electrical, and plumbing services. Concealing such elements has made it difficult to perform periodic inspection safely for maintenance. To complement this, there have been increasing research interests in mobile robots in recent years that are capable of accessing hard-to-reach locations, thus allowing workers to perform inspections remotely. However, current initiatives are met with challenges arising from unstructured site conditions that hamper the robot's productivity for false ceiling inspection. The paper adopts a top-down approach known as "Design for Robots", taking into account four robot-inclusive design principles: activity, accessibility, safety, observability. Falcon, a class of inspection robots, was used as a benchmark to identify spatial constraints according to the four principles. Following this, a list of false ceiling design guidelines for each category are proposed. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
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10. Raptor: A Design of a Drain Inspection Robot.
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Muthugala, M. A. Viraj J., Palanisamy, Povendhan, Samarakoon, S. M. Bhagya P., Padmanabha, Saurav Ghante Anantha, Elara, Mohan Rajesh, and Terntzer, Dylan Ng
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ROBOTS ,ROBOT design & construction ,FUZZY logic ,SUBSURFACE drainage - Abstract
Frequent inspections are essential for drains to maintain proper function to ensure public health and safety. Robots have been developed to aid the drain inspection process. However, existing robots designed for drain inspection require improvements in their design and autonomy. This paper proposes a novel design of a drain inspection robot named Raptor. The robot has been designed with a manually reconfigurable wheel axle mechanism, which allows the change of ground clearance height. Design aspects of the robot, such as mechanical design, control architecture and autonomy functions, are comprehensively described in the paper, and insights are included. Maintaining the robot's position in the middle of a drain when moving along the drain is essential for the inspection process. Thus, a fuzzy logic controller has been introduced to the robot to cater to this demand. Experiments have been conducted by deploying a prototype of the design to drain environments considering a set of diverse test scenarios. Experiment results show that the proposed controller effectively maintains the robot in the middle of a drain while moving along the drain. Therefore, the proposed robot design and the controller would be helpful in improving the productivity of robot-aided inspection of drains. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
11. Modelling and Control of a Reconfigurable Robot for Achieving Reconfiguration and Locomotion with Different Shapes.
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Samarakoon, S. M. Bhagya P., Muthugala, M. A. Viraj J., Abdulkader, Raihan E., Si, Soh Wei, Tun, Thein T., and Elara, Mohan Rajesh
- Subjects
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ROBOT control systems , *ROBOTS - Abstract
Area coverage is a crucial factor for a robot intended for applications such as floor cleaning, disinfection, and inspection. Robots with fixed shapes could not realize an adequate level of area coverage performance. Reconfigurable robots have been introduced to overcome the limitations of fixed-shape robots, such as accessing narrow spaces and cover obstacles. Although state-of-the-art reconfigurable robots used for coverage applications are capable of shape-changing for improving the area coverage, the reconfiguration is limited to a few predefined shapes. It has been proven that the ability of reconfiguration beyond a few shapes can significantly improve the area coverage performance of a reconfigurable robot. In this regard, this paper proposes a novel robot model and a low-level controller that can facilitate the reconfiguration beyond a small set of predefined shapes and locomotion per instructions while firmly maintaining the shape. A prototype of a robot that facilitates the aim mentioned above has been designed and developed. The proposed robot model and controller have been integrated into the prototype, and experiments have been conducted considering various reconfiguration and locomotion scenarios. Experimental results confirm the validity of the proposed model and controller during reconfiguration and locomotion of the robot. Moreover, the applicability of the proposed model and controller for achieving high-level autonomous capabilities has been proven. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
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12. Falcon: A False Ceiling Inspection Robot.
- Author
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Muthugala, M. A. Viraj J., Apuroop, Koppaka Ganesh Sai, Padmanabha, Saurav Ghante Anantha, Samarakoon, S. M. Bhagya P., Elara, Mohan Rajesh, and Wen, Raymond Yeong Wei
- Subjects
CEILINGS ,BUILDING maintenance ,ROBOT design & construction ,INFRASTRUCTURE (Economics) ,ROBOTS ,BUILDING inspection - Abstract
Frequent inspections are essential for false ceilings to maintain the service infrastructures, such as mechanical, electrical, and plumbing, and the structure of false ceilings. Human-labor-based conventional inspection procedures for false ceilings suffer many shortcomings, including safety concerns. Thus, robot-aided solutions are demanded for false ceiling inspections similar to other building maintenance services. However, less work has been conducted on developing robot-aided solutions for false ceiling inspections. This paper proposes a novel design for a robot intended for false ceiling inspections named Falcon. The compact size and the tracked wheel design of the robot allow it to traverse obstacles such as runners and lighting fixtures. The robot's ability to autonomously follow the perimeter of a false ceiling can improve the productivity of the inspection process since the heading of the robot often changes due to the nature of the terrain, and continuous heading correction is an overhead for a teleoperator. Therefore, a Perimeter-Following Controller (PFC) based on fuzzy logic was integrated into the robot. Experimental results obtained by deploying a prototype of the robot design to a false ceiling testbed confirmed the effectiveness of the proposed PFC in perimeter following and the robot's features, such as the ability to traverse on runners and fixtures in a false ceiling. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
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