Benny Kai Kiat Ng scite author profile

Benny Kai Kiat Ng

5Publications

85Citation Statements Received

92Citation Statements Given

How they've been cited

213

How they cite others

108

Affiliations

Singapore University of Technology and Design

Publications

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Sensor Fusion for Public Space Utilization Monitoring in a Smart City

Lau

Wijerathne

et al. 2018

IEEE Internet Things J.

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Abstract-Public space utilization is crucial for urban developers to understand how efficient a place is being occupied in order to improve existing or future infrastructures. In a smart cities approach, implementing public space monitoring with Internetof-Things (IoT) sensors appear to be a viable solution. However, choice of sensors often is a challenging problem and often linked with scalability, coverage, energy consumption, accuracy, and privacy. To get the most from low cost sensor with aforementioned design in mind, we proposed data processing modules for capturing public space utilization with Renewable Wireless Sensor Network (RWSN) platform using pyroelectric infrared (PIR) and analog sound sensor. We first proposed a calibration process to remove false alarm of PIR sensor due to the impact of weather and environment. We then demonstrate how the sounds sensor can be processed to provide various insight of a public space. Lastly, we fused both sensors and study a particular public space utilization based on one month data to unveil its usage.

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Understanding Crowd Behaviors in a Social Event by Passive WiFi Sensing and Data Mining

Zhou

Lau

Koh

et al. 2020

IEEE Internet Things J.

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Understanding crowd behaviors in a large social event is crucial for event management. Passive WiFi sensing, by collecting WiFi probe requests sent from mobile devices, provides a better way to monitor crowds compared with people counters and cameras in terms of free interference, larger coverage, lower cost, and more information on people's movement. In existing studies, however, not enough attention has been paid to the thorough analysis and mining of collected data. Especially, the power of machine learning has not been fully exploited. In this paper, therefore, we propose a comprehensive data analysis framework to fully analyze the collected probe requests to extract three types of patterns related to crowd behaviors in a large social event, with the help of statistics, visualization, and unsupervised machine learning. First, trajectories of the mobile devices are extracted from probe requests and analyzed to reveal the spatial patterns of the crowdsâȂŹ movement. Hierarchical agglomerative clustering is adopted to find the interconnections between different locations. Next, k-means and k-shape clustering algorithms are applied to extract temporal visiting patterns of the crowds by days and locations, respectively. Finally, by combining with time, trajectories are transformed into spatiotemporal patterns, which reveal how trajectory duration changes over the length and how the overall trends of crowd movement change over time. The proposed data analysis framework is fully demonstrated using real-world data collected in a large social event. Results show that one can extract comprehensive patterns from data collected by a network of passive WiFi sensors.

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Minimizing Electricity Cost through Smart Lighting Control for Indoor Plant Factories

Lork

Cubillas²,

et al. 2020

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Relative Localization of Mobile Robots with Multiple Ultra-WideBand Ranging Measurements

Cao

Liu

Yuen

et al. 2021

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An Ontology-Based Framework for Building Energy Management with IoT

et al. 2019

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In this paper, we develop an ontology-based framework for energy management in buildings. We divide the functional architecture of a building energy management system into three interconnected modules that include building management system (BMS), benchmarking (BMK), and evaluation & control (ENC) modules. The BMS module is responsible for measuring several useful environmental parameters, as well as real-time energy consumption of the building. The BMK module provides the necessary information required to understand the context and cause of building energy efficiency or inefficiency, and also the information which can further differentiate normal and abnormal energy consumption in different scenarios. The ENC module evaluates all the information coming from BMS and BMK modules, the information is contextualized, and finally the cause of energy inefficiency/abnormality and mitigating control actions are determined. Methodology to design appropriate ontology and inference rules for various modules is also discussed. With the help of actual data obtained from three different rooms in a commercial building in Singapore, a case study is developed to demonstrate the application and advantages of the proposed framework. By mitigating the appropriate cause of abnormal inefficiency, we can achieve 5.7%, 11.8% and 8.7% energy savings in Room 1, Room 2, and Room 3 respectively, while creating minimum inconvenience for the users.

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Benny Kai Kiat Ng

Sensor Fusion for Public Space Utilization Monitoring in a Smart City

Understanding Crowd Behaviors in a Social Event by Passive WiFi Sensing and Data Mining

Minimizing Electricity Cost through Smart Lighting Control for Indoor Plant Factories

Relative Localization of Mobile Robots with Multiple Ultra-WideBand Ranging Measurements

An Ontology-Based Framework for Building Energy Management with IoT

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