Sarath Kodagoda | University of Technology Sydney (original) (raw)

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Papers by Sarath Kodagoda

Proceedings 2001 IEEE/RSJ International Conference on Intelligent Robots and Systems. Expanding the Societal Role of Robotics in the the Next Millennium (Cat. No.01CH37180), 2000

... Paper: Language: English: FPGA-Based Relative Distance Estimation for Indoor Robot Control Us... more ... Paper: Language: English: FPGA-Based Relative Distance Estimation for Indoor Robot Control Using Monocular Digital Camera. Ying-Hao Yu * , Chau Vo-Ky ** , Sarath Kodagoda * , and Quang Phuc Ha *. ... Conf. Robotics and Biomimetics, Hong Kong, pp. 670-675, 2005. ...

... ax by cz dxy exz fyz gx hy iz + + + + + o The Activity, Mobility and Complexity features whic... more ... ax by cz dxy exz fyz gx hy iz + + + + + o The Activity, Mobility and Complexity features which were derived by Hjorth [1970] to describe time domain signal For the purpose of comparison, we use the following features extracted as candidate features from 2D range data. ...

Conventional Occupancy Grid (OG) map which contains occupied and unoccupied cells can be enhanced... more Conventional Occupancy Grid (OG) map which contains occupied and unoccupied cells can be enhanced by incorporating semantic labels of places to build semantic grid map. Map with semantic information is more understandable to humans and hence can be used for efficient communication, leading to effective human robot interactions. This paper proposes a new approach that enables a robot to explore an indoor environment to build an occupancy grid map and then perform semantic labeling to generate a semantic grid map. Geometrical information is obtained by classifying the places into three different semantic classes based on data collected by a 2D laser range finder. Classification is achieved by implementing logistic regression as a multi-class classifier, and the results are combined in a probabilistic framework. Labeling accuracy is further improved by topological correction on robot position map which is an intermediate product, and also by outlier removal process on semantic grid map...

Lecture Notes in Computer Science, 1999

The primary focus is on the development of an intelligent control scheme, which is insensitive to... more The primary focus is on the development of an intelligent control scheme, which is insensitive to parametric uncertainty, load and parameter fluctuations and most importantly amenable for real time implementation. In this paper, we present an effective uncoupled direct fuzzy PD/PI control scheme for an outdoor AGV, which is a converted electrically powered golf-car. The controller performance is assessed against

Lecture Notes in Computer Science, 2001

Fuzzu logic control is a relatively new technology and hence it needs rigorous comparative experi... more Fuzzu logic control is a relatively new technology and hence it needs rigorous comparative experimental analyses with ither well-established conventional control schemes. Further, fuzzy controller stability analysis is a major hindrance for its popularity among control engineers. It this paper, stable fuzzy variable structure systems or Sliding Mode Controllers (SMC) and fuzzy PD/PID controllers for steer and drive contol of

Lecture Notes in Computer Science, 1999

In this paper we present a systematic procedure for the synthesis of stable and robust fuzzy PD/P... more In this paper we present a systematic procedure for the synthesis of stable and robust fuzzy PD/PID controllers for robot manipulators from a variable structure systems standpoint. For linear systems and certain classes of non-linear systems variable structure systems theory has been used as a basis for synthesizing so-called fuzzy sliding mode controllers (FSMC)[1]. Variable structure systems theory has also been shown to be useful for understanding the effectiveness and stability of direct fuzzy PD controllers [2]. In this paper we will present a systematic method to exploit these two complementary roles of variable structure systems theory in order to guide the design and analysis of fuzzy PD/PID controllers for the class of non-linear systems characterized by robot dynamics.

Sixth International Conference of Information Fusion, 2003. Proceedings of the, 2003

Road detection and tracking is very useful in the synthesis of driver assistance and intelligent ... more Road detection and tracking is very useful in the synthesis of driver assistance and intelligent transportation systems. In this paper a methodology is proposed based on the extended Kalman filer for robust road curb detection and tracking using a combination of onboard active and passive sensors. The problem is formulated as detecting and tracking a maneuvering target in clutter using onboard sensors on a moving platfbrm. The primary sensors utilized are a dimensional SICK laser scanner, five encoders and a gyroscope, together with an image sensor (CCD camera). Compared to the active 20 laser scanner the CCD camera is capable of providing observations over an extended horizon, thus making available much useful information about the curb trend, which is exploited in mainly the laser based tracking algorithm. The advantage of the proposed image enhanced laser detectionhracking method, over laser alone detectionhracking, is illustrated using simulations and its robustness to varied road curvatures, branching, tums and scenarios, is demonstrated through experimental results.

IEEE Transactions on Control Systems Technology, 2015

ABSTRACT This brief addresses the issue of monitoring physical spatial phenomena of interest usin... more ABSTRACT This brief addresses the issue of monitoring physical spatial phenomena of interest using information collected by a resource-constrained network of mobile, wireless, and noisy sensors that can take discrete measurements as they navigate through the environment. We first propose an efficient novel optimality criterion for designing a sampling strategy to find the most informative locations in taking future observations to minimize the uncertainty at all unobserved locations of interest. This solution is proven to be within bounds. The computational complexity of this proposition is shown to be practically feasible. We then prove that under a certain condition of monotonicity property, the approximate entropy at resulting locations obtained by our proposed algorithm is within 1-(1/e) of the optimum, which is then utilized as a stopping criterion for the sampling algorithm. The criterion enables the prediction results to be within user-defined accuracies by controlling the number of mobile sensors. The effectiveness of the proposed method is illustrated using a prepublished data set.

13th International Conference on Control, Automation, Robotics and Vision, ICARCV 2014

Human context is the most natural explanation why objects are placed and arranged in a particula... more Human context is the most natural explanation why
objects are placed and arranged in a particular order in an indoor
environment. Usually humans arrange objects in order to support
their intended activities in a given environment. However most
common approaches for robotic object search involve modelling
object-object relationships. In this paper, we hypothesize such
relationships are centered around humans and brings human
context to object search by modelling human-object relationships
as an affordance map. It identifies location in a 3D map which
support a particular affordance using virtual human models.
Therefore our approach does not require to observe real humans
in the scene. The affordance map together with object-human-
robot relationship are then used to infer the search strategy of
the robot. We tested our algorithm by using a mobile robot that
actively searched for the object “computer monitors” in an office
environment and recorded promising results

2014 13th International Conference on Control Automation Robotics & Vision (ICARCV), 2014

ABSTRACT This paper proposes a data driven machine learning model for spatial prediction of hydro... more ABSTRACT This paper proposes a data driven machine learning model for spatial prediction of hydrogen sulfide (H2S) in a gravity sewer system. The gaseous H2S in the overhead of the gravity sewer is modelled using a Gaussian Process with a new covariance function due to constraints of sewer boundaries. The covariance function is proposed based on the distance between two locations computed along the lengths of the sewer network. A mutual information based strategy is used to choose the best k sensor measurements and their locations from among n potential sensor observations and their locations. This provably NP-hard combinatorial sensor selection problem is addressed by maximizing the mutual information between the selected locations and the locations that are not selected or do not have any sensor deployments. A proof-of-concept study was carried out comparing the spatial prediction of H2S with a complex model currently used by Sydney Water. The proposed approach is shown to be effective in both modelling and predicting the H2S spatial concentrations in sewers as well as identifying optimal number of H2S sensors and their locations for a required level of prediction accuracy.

2006 International Conference on Information and Automation, 2006

Map building and obstacle detection are basic tasks in mobile robot navigation. In this paper we ... more Map building and obstacle detection are basic tasks in mobile robot navigation. In this paper we present a probability based solution for map building which utilizes time of flight information from an ultrasonic sensor. In contrast to most of the available map building systems, this uses a single ultrasonic sensor, mounted on a rotating shaft. Discrete sonar observations taken at

Proceedings of the Second International Workshop on Robot Motion and Control. RoMoCo'01 (IEEE Cat. No.01EX535), 2001

Proceedings 2001 IEEE/RSJ International Conference on Intelligent Robots and Systems. Expanding the Societal Role of Robotics in the the Next Millennium (Cat. No.01CH37180), 2000

... Paper: Language: English: FPGA-Based Relative Distance Estimation for Indoor Robot Control Us... more ... Paper: Language: English: FPGA-Based Relative Distance Estimation for Indoor Robot Control Using Monocular Digital Camera. Ying-Hao Yu * , Chau Vo-Ky ** , Sarath Kodagoda * , and Quang Phuc Ha *. ... Conf. Robotics and Biomimetics, Hong Kong, pp. 670-675, 2005. ...

... ax by cz dxy exz fyz gx hy iz + + + + + o The Activity, Mobility and Complexity features whic... more ... ax by cz dxy exz fyz gx hy iz + + + + + o The Activity, Mobility and Complexity features which were derived by Hjorth [1970] to describe time domain signal For the purpose of comparison, we use the following features extracted as candidate features from 2D range data. ...

Conventional Occupancy Grid (OG) map which contains occupied and unoccupied cells can be enhanced... more Conventional Occupancy Grid (OG) map which contains occupied and unoccupied cells can be enhanced by incorporating semantic labels of places to build semantic grid map. Map with semantic information is more understandable to humans and hence can be used for efficient communication, leading to effective human robot interactions. This paper proposes a new approach that enables a robot to explore an indoor environment to build an occupancy grid map and then perform semantic labeling to generate a semantic grid map. Geometrical information is obtained by classifying the places into three different semantic classes based on data collected by a 2D laser range finder. Classification is achieved by implementing logistic regression as a multi-class classifier, and the results are combined in a probabilistic framework. Labeling accuracy is further improved by topological correction on robot position map which is an intermediate product, and also by outlier removal process on semantic grid map...

Lecture Notes in Computer Science, 1999

The primary focus is on the development of an intelligent control scheme, which is insensitive to... more The primary focus is on the development of an intelligent control scheme, which is insensitive to parametric uncertainty, load and parameter fluctuations and most importantly amenable for real time implementation. In this paper, we present an effective uncoupled direct fuzzy PD/PI control scheme for an outdoor AGV, which is a converted electrically powered golf-car. The controller performance is assessed against

Lecture Notes in Computer Science, 2001

Fuzzu logic control is a relatively new technology and hence it needs rigorous comparative experi... more Fuzzu logic control is a relatively new technology and hence it needs rigorous comparative experimental analyses with ither well-established conventional control schemes. Further, fuzzy controller stability analysis is a major hindrance for its popularity among control engineers. It this paper, stable fuzzy variable structure systems or Sliding Mode Controllers (SMC) and fuzzy PD/PID controllers for steer and drive contol of

Lecture Notes in Computer Science, 1999

In this paper we present a systematic procedure for the synthesis of stable and robust fuzzy PD/P... more In this paper we present a systematic procedure for the synthesis of stable and robust fuzzy PD/PID controllers for robot manipulators from a variable structure systems standpoint. For linear systems and certain classes of non-linear systems variable structure systems theory has been used as a basis for synthesizing so-called fuzzy sliding mode controllers (FSMC)[1]. Variable structure systems theory has also been shown to be useful for understanding the effectiveness and stability of direct fuzzy PD controllers [2]. In this paper we will present a systematic method to exploit these two complementary roles of variable structure systems theory in order to guide the design and analysis of fuzzy PD/PID controllers for the class of non-linear systems characterized by robot dynamics.

Sixth International Conference of Information Fusion, 2003. Proceedings of the, 2003

Road detection and tracking is very useful in the synthesis of driver assistance and intelligent ... more Road detection and tracking is very useful in the synthesis of driver assistance and intelligent transportation systems. In this paper a methodology is proposed based on the extended Kalman filer for robust road curb detection and tracking using a combination of onboard active and passive sensors. The problem is formulated as detecting and tracking a maneuvering target in clutter using onboard sensors on a moving platfbrm. The primary sensors utilized are a dimensional SICK laser scanner, five encoders and a gyroscope, together with an image sensor (CCD camera). Compared to the active 20 laser scanner the CCD camera is capable of providing observations over an extended horizon, thus making available much useful information about the curb trend, which is exploited in mainly the laser based tracking algorithm. The advantage of the proposed image enhanced laser detectionhracking method, over laser alone detectionhracking, is illustrated using simulations and its robustness to varied road curvatures, branching, tums and scenarios, is demonstrated through experimental results.

IEEE Transactions on Control Systems Technology, 2015

ABSTRACT This brief addresses the issue of monitoring physical spatial phenomena of interest usin... more ABSTRACT This brief addresses the issue of monitoring physical spatial phenomena of interest using information collected by a resource-constrained network of mobile, wireless, and noisy sensors that can take discrete measurements as they navigate through the environment. We first propose an efficient novel optimality criterion for designing a sampling strategy to find the most informative locations in taking future observations to minimize the uncertainty at all unobserved locations of interest. This solution is proven to be within bounds. The computational complexity of this proposition is shown to be practically feasible. We then prove that under a certain condition of monotonicity property, the approximate entropy at resulting locations obtained by our proposed algorithm is within 1-(1/e) of the optimum, which is then utilized as a stopping criterion for the sampling algorithm. The criterion enables the prediction results to be within user-defined accuracies by controlling the number of mobile sensors. The effectiveness of the proposed method is illustrated using a prepublished data set.

13th International Conference on Control, Automation, Robotics and Vision, ICARCV 2014

Human context is the most natural explanation why objects are placed and arranged in a particula... more Human context is the most natural explanation why
objects are placed and arranged in a particular order in an indoor
environment. Usually humans arrange objects in order to support
their intended activities in a given environment. However most
common approaches for robotic object search involve modelling
object-object relationships. In this paper, we hypothesize such
relationships are centered around humans and brings human
context to object search by modelling human-object relationships
as an affordance map. It identifies location in a 3D map which
support a particular affordance using virtual human models.
Therefore our approach does not require to observe real humans
in the scene. The affordance map together with object-human-
robot relationship are then used to infer the search strategy of
the robot. We tested our algorithm by using a mobile robot that
actively searched for the object “computer monitors” in an office
environment and recorded promising results

2014 13th International Conference on Control Automation Robotics & Vision (ICARCV), 2014

ABSTRACT This paper proposes a data driven machine learning model for spatial prediction of hydro... more ABSTRACT This paper proposes a data driven machine learning model for spatial prediction of hydrogen sulfide (H2S) in a gravity sewer system. The gaseous H2S in the overhead of the gravity sewer is modelled using a Gaussian Process with a new covariance function due to constraints of sewer boundaries. The covariance function is proposed based on the distance between two locations computed along the lengths of the sewer network. A mutual information based strategy is used to choose the best k sensor measurements and their locations from among n potential sensor observations and their locations. This provably NP-hard combinatorial sensor selection problem is addressed by maximizing the mutual information between the selected locations and the locations that are not selected or do not have any sensor deployments. A proof-of-concept study was carried out comparing the spatial prediction of H2S with a complex model currently used by Sydney Water. The proposed approach is shown to be effective in both modelling and predicting the H2S spatial concentrations in sewers as well as identifying optimal number of H2S sensors and their locations for a required level of prediction accuracy.

2006 International Conference on Information and Automation, 2006

Map building and obstacle detection are basic tasks in mobile robot navigation. In this paper we ... more Map building and obstacle detection are basic tasks in mobile robot navigation. In this paper we present a probability based solution for map building which utilizes time of flight information from an ultrasonic sensor. In contrast to most of the available map building systems, this uses a single ultrasonic sensor, mounted on a rotating shaft. Discrete sonar observations taken at

Proceedings of the Second International Workshop on Robot Motion and Control. RoMoCo'01 (IEEE Cat. No.01EX535), 2001