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Your search keyword '"Taniguchi, Ittetsu"' showing total 211 results
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211 results on '"Taniguchi, Ittetsu"'

1. Improving Building Temperature Forecasting: A Data-driven Approach with System Scenario Clustering

Author

Zhao, Dafang, Chen, Zheng, Li, Zhengmao, Yuan, Xiaolei, and Taniguchi, Ittetsu

Subjects
Computer Science - Machine Learning, Electrical Engineering and Systems Science - Signal Processing
Abstract

Heat, Ventilation and Air Conditioning (HVAC) systems play a critical role in maintaining a comfortable thermal environment and cost approximately 40% of primary energy usage in the building sector. For smart energy management in buildings, usage patterns and their resulting profiles allow the improvement of control systems with prediction capabilities. However, for large-scale HVAC system management, it is difficult to construct a detailed model for each subsystem. In this paper, a new data-driven room temperature prediction model is proposed based on the k-means clustering method. The proposed data-driven temperature prediction approach extracts the system operation feature through historical data analysis and further simplifies the system-level model to improve generalization and computational efficiency. We evaluate the proposed approach in the real world. The results demonstrated that our approach can significantly reduce modeling time without reducing prediction accuracy., Comment: Accepted and will be published on IEEE PES GM 2024

Published
2024

2. Data-driven HVAC Control Using Symbolic Regression: Design and Implementation

Author

Ozawa, Yuki, Zhao, Dafang, Watari, Daichi, Taniguchi, Ittetsu, Suzuki, Toshihiro, Shimoda, Yoshiyuki, and Onoye, Takao

Subjects
Electrical Engineering and Systems Science - Systems and Control, Computer Science - Artificial Intelligence
Abstract

The large amount of data collected in buildings makes energy management smarter and more energy efficient. This study proposes a design and implementation methodology of data-driven heating, ventilation, and air conditioning (HVAC) control. Building thermodynamics is modeled using a symbolic regression model (SRM) built from the collected data. Additionally, an HVAC system model is also developed with a data-driven approach. A model predictive control (MPC) based HVAC scheduling is formulated with the developed models to minimize energy consumption and peak power demand and maximize thermal comfort. The performance of the proposed framework is demonstrated in the workspace in the actual campus building. The HVAC system using the proposed framework reduces the peak power by 16.1\% compared to the widely used thermostat controller., Comment: 5 pages with 6 figures, accepted by IEEE PES GM 2023 (23PESGM0543) This work has been submitted to the IEEE for possible publication

Published
2023

5. A Picture May Be Worth a Hundred Words for Visual Question Answering

Author

Hirota, Yusuke, Garcia, Noa, Otani, Mayu, Chu, Chenhui, Nakashima, Yuta, Taniguchi, Ittetsu, and Onoye, Takao

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

How far can we go with textual representations for understanding pictures? In image understanding, it is essential to use concise but detailed image representations. Deep visual features extracted by vision models, such as Faster R-CNN, are prevailing used in multiple tasks, and especially in visual question answering (VQA). However, conventional deep visual features may struggle to convey all the details in an image as we humans do. Meanwhile, with recent language models' progress, descriptive text may be an alternative to this problem. This paper delves into the effectiveness of textual representations for image understanding in the specific context of VQA. We propose to take description-question pairs as input, instead of deep visual features, and fed them into a language-only Transformer model, simplifying the process and the computational cost. We also experiment with data augmentation techniques to increase the diversity in the training set and avoid learning statistical bias. Extensive evaluations have shown that textual representations require only about a hundred words to compete with deep visual features on both VQA 2.0 and VQA-CP v2.

Published
2021

8. A Dynamic Programming Algorithm for Energy-Aware Routing of Delivery Drones

Author

Funabashi, Yusuke, Shibata, Atsuya, Negoro, Shunsuke, Taniguchi, Ittetsu, Tomiyama, Hiroyuki, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Chiplunkar, Niranjan N., editor, and Fukao, Takanori, editor

Published
2021
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14. Computer-Vision-Oriented Adaptive Sampling in Compressive Sensing †.

Author

Liu, Luyang, Nishikawa, Hiroki, Zhou, Jinjia, Taniguchi, Ittetsu, and Onoye, Takao

Subjects
ADAPTIVE sampling (Statistics), DATA acquisition systems, COMPUTER vision, INTERNET of things, ACQUISITION of data
Abstract

Compressive sensing (CS) is recognized for its adeptness at compressing signals, making it a pivotal technology in the context of sensor data acquisition. With the proliferation of image data in Internet of Things (IoT) systems, CS is expected to reduce the transmission cost of signals captured by various sensor devices. However, the quality of CS-reconstructed signals inevitably degrades as the sampling rate decreases, which poses a challenge in terms of the inference accuracy in downstream computer vision (CV) tasks. This limitation imposes an obstacle to the real-world application of existing CS techniques, especially for reducing transmission costs in sensor-rich environments. In response to this challenge, this paper contributes a CV-oriented adaptive CS framework based on saliency detection to the field of sensing technology that enables sensor systems to intelligently prioritize and transmit the most relevant data. Unlike existing CS techniques, the proposal prioritizes the accuracy of reconstructed images for CV purposes, not only for visual quality. The primary objective of this proposal is to enhance the preservation of information critical for CV tasks while optimizing the utilization of sensor data. This work conducts experiments on various realistic scenario datasets collected by real sensor devices. Experimental results demonstrate superior performance compared to existing CS sampling techniques across the STL10, Intel, and Imagenette datasets for classification and KITTI for object detection. Compared with the baseline uniform sampling technique, the average classification accuracy shows a maximum improvement of 26.23%, 11.69%, and 18.25%, respectively, at specific sampling rates. In addition, even at very low sampling rates, the proposal is demonstrated to be robust in terms of classification and detection as compared to state-of-the-art CS techniques. This ensures essential information for CV tasks is retained, improving the efficacy of sensor-based data acquisition systems. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Online Energy Management Framework for Smart Buildings With Low-Complexity Estimators.

Author

Watari, Daichi, Marantos, Charalampos, Taniguchi, Ittetsu, Catthoor, Francky, Siozios, Kostas, Soudris, Dimitrios, and Onoye, Takao

Abstract

This letter proposes an online energy management framework for smart buildings. Two low-complexity estimators for thermal comfort and electrical load are investigated and integrated into an optimization framework. The proposed framework optimizes operations of a battery system and multiple heating, ventilation, and air conditioning (HVAC) systems to minimize energy consumption and power peak while maximizing occupants’ thermal comfort. The effectiveness of the proposed framework is demonstrated using data measured in actual campus buildings in terms of system costs, thermal comfort, and computational complexity. The results show that the proposed framework can reduce electricity costs by 5.7% compared to the baseline. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Duck Curve Aware Dynamic Pricing and Battery Scheduling Strategy Using Reinforcement Learning

Author

Watari, Daichi, 1000040551453, 0000-0002-7843-5907, Taniguchi, Ittetsu, 1000060252590, Onoye, Takao, Watari, Daichi, 1000040551453, 0000-0002-7843-5907, Taniguchi, Ittetsu, 1000060252590, and Onoye, Takao

Abstract

Watari D., Taniguchi I., Onoye T.. Duck Curve Aware Dynamic Pricing and Battery Scheduling Strategy Using Reinforcement Learning. IEEE Transactions on Smart Grid , (2023); https://doi.org/10.1109/TSG.2023.3288355., The duck curve is becoming a global problem in energy technology due to the rapid increase in solar power adoption and the rise of prosumers. To address this issue, a resource aggregator (RA) has emerged to provide flexible solutions through aggregating the prosumers and demand response such as dynamic pricing. This paper proposes an optimal strategy for the RA that dispatches dynamic pricing to the prosumers and leverages the battery system at both RA and prosumer levels. The proposed method is based on a model-free deep reinforcement learning (DRL) algorithm to optimize each prosumer’s retail prices and schedule usage of the RA’s battery power station. An objective reward function is used to maximize the RA’s profit, minimize the prosumer’s cost, and maximize the improvement of the duck curve. The performance of the proposed DRL-based strategy was demonstrated by simulation experiments using actual wholesale price, demand, and PV generation data. The results show that the proposed strategy can improve the standard deviation and peak-to-average ratio of net load by up to 57.1% and 23%, respectively.

Published
2023

22. aVCSR: Adaptive Video Compressive Sensing Using Region-of-Interest Detection in the Compressed Domain

Author

Yang, Jian, Wang, Haixin, Taniguchi, Ittetsu, Fan, Yibo, and Zhou, Jinjia

Abstract

Existing video compressive sensing (CS) techniques with fixed sampling rates can deliver satisfactory reconstructed quality but necessitate large transmission bandwidth. To overcome this challenge, region-of-interest (ROI)-based CS algorithms have been introduced to allocate different coding resources between ROI and non-ROI segments. However, neglecting non-ROI excessively in these algorithms leads to unsatisfactory average quality for the eventual reconstruction. In this article, we integrate the ideas of these methods and propose a novel adaptive video CS approach using a low-complexity ROI detection method in the compressed domain. The ROI is detected and sampled by calculating the measurement variance between the reference frame and the subsequent frames. Conversely, the non-ROI is not transmitted but will be reconstructed by utilizing the reference frame through the corresponding position information. In addition, we present a compact method for adapting the threshold value, which allows each frame of a video to have a unique threshold rather than an artificially predetermined fixed value. Moreover, a reference-frame-updating strategy is developed to improve the versatility of the entire framework. Compared to state-of-the-art counterparts, extensive experimental results have demonstrated that our proposed methods achieve superior performance while tackling diverse scenes and using a lower sampling rate.

Published
2024
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23. Duck Curve Aware Dynamic Pricing and Battery Scheduling Strategy Using Reinforcement Learning

Author

Watari, Daichi, Taniguchi, Ittetsu, and Onoye, Takao

Abstract

The duck curve is becoming a global problem in energy technology due to the rapid increase in solar power adoption and the rise of prosumers. To address this issue, a resource aggregator (RA) has emerged to provide flexible solutions through aggregating the prosumers and demand response such as dynamic pricing. This paper proposes an optimal strategy for the RA that dispatches dynamic pricing to the prosumers and leverages the battery system at both RA and prosumer levels. The proposed method is based on a model-free deep reinforcement learning (DRL) algorithm to optimize each prosumer’s retail prices and schedule usage of the RA’s battery power station. An objective reward function is used to maximize the RA’s profit, minimize the prosumer’s cost, and maximize the improvement of the duck curve. The performance of the proposed DRL-based strategy was demonstrated by simulation experiments using actual wholesale price, demand, and PV generation data. The results show that the proposed strategy can improve the standard deviation and peak-to-average ratio of net load by up to 57.1% and 23%, respectively.

Published
2024
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34. Image/Video Coding and Processing Techniques for Intelligent Sensor Nodes.

Author

Zhou, Jinjia, Taniguchi, Ittetsu, and Jin, Xin

Subjects
*INTELLIGENT sensors, *MACHINE learning, *SIGNAL processing, *VIDEO codecs, *PARALLEL processing, *VIDEO coding
Abstract

This document discusses the development of intelligent sensor nodes for Internet of Things (IoT) applications. These nodes use embedded signal processing and machine learning algorithms to process data on board and transmit key information instead of raw sensing data, reducing data volume. The document focuses on image and video coding and processing techniques that can be implemented in low-cost sensor nodes to improve data compression and reconstruction quality. It also presents algorithms, hardware designs, and deep learning-based strategies for intelligent image sensors. The document concludes by expressing gratitude to the authors for their contributions and hopes that this collection will inspire further advancements in the field. [Extracted from the article]

Published
2024
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43. Multi-time scale energy management framework for smart PV systems mixing fast and slow dynamics

Author

Watari, Daichi (author), Taniguchi, Ittetsu (author), Goverde, Hans (author), Manganiello, P. (author), Shirazi, Elham (author), Catthoor, Francky (author), Onoye, Takao (author), Watari, Daichi (author), Taniguchi, Ittetsu (author), Goverde, Hans (author), Manganiello, P. (author), Shirazi, Elham (author), Catthoor, Francky (author), and Onoye, Takao (author)

Abstract

We propose a multi-time scale energy management framework for a smart photovoltaic (PV) system that can calculate optimized schedules for battery operation, power purchases, and appliance usage. A smart PV system is a local energy community that includes several buildings and households equipped with PV panels and batteries. However, due to the unpredictability and fast variation of PV generation, maintaining energy balance and reducing electricity costs in the system is challenging. Our proposed framework employs a model predictive control approach with a physics-based PV forecasting model and an accurately parameterized battery model. We also introduce a multi-time scale structure composed of two-time scales: a longer coarse-grained time scale for daily horizon with 15-minutes resolution and a shorter fine-grained time scale for 15-minutes horizon with 1-second resolution. In contrast to the current single-time scale approaches, this alternative structure enables the management of a necessary mix of fast and slow system dynamics with reasonable computational times while maintaining high accuracy. Simulation results show that the proposed framework reduces electricity costs up 48.1% compared with baseline methods. The necessity of a multi-time scale and the impact on accurate system modeling in terms of PV forecasting and batteries are also demonstrated., Photovoltaic Materials and Devices

Published
2021
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