Bayesian Prediction and Adaptive Sampling Algorithms for Mobile Sensor Networks: Online Environmental Field Reconstruction in Space and Time (SpringerBriefs in Electrical and Computer Engineering)
Yunfei Xu
- 出版商: Springer
- 出版日期: 2015-11-04
- 售價: $2,180
- 貴賓價: 9.5 折 $2,071
- 語言: 英文
- 頁數: 128
- 裝訂: Paperback
- ISBN: 3319219200
- ISBN-13: 9783319219202
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相關分類:
感測器 Sensor、機率統計學 Probability-and-statistics、Algorithms-data-structures
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商品描述
This brief introduces a class of problems and models for the prediction of the scalar field of interest from noisy observations collected by mobile sensor networks. It also introduces the problem of optimal coordination of robotic sensors to maximize the prediction quality subject to communication and mobility constraints either in a centralized or distributed manner. To solve such problems, fully Bayesian approaches are adopted, allowing various sources of uncertainties to be integrated into an inferential framework effectively capturing all aspects of variability involved. The fully Bayesian approach also allows the most appropriate values for additional model parameters to be selected automatically by data, and the optimal inference and prediction for the underlying scalar field to be achieved. In particular, spatio-temporal Gaussian process regression is formulated for robotic sensors to fuse multifactorial effects of observations, measurement noise, and prior distributions for obtaining the predictive distribution of a scalar environmental field of interest. New techniques are introduced to avoid computationally prohibitive Markov chain Monte Carlo methods for resource-constrained mobile sensors. Bayesian Prediction and Adaptive Sampling Algorithms for Mobile Sensor Networks starts with a simple spatio-temporal model and increases the level of model flexibility and uncertainty step by step, simultaneously solving increasingly complicated problems and coping with increasing complexity, until it ends with fully Bayesian approaches that take into account a broad spectrum of uncertainties in observations, model parameters, and constraints in mobile sensor networks. The book is timely, being very useful for many researchers in control, robotics, computer science and statistics trying to tackle a variety of tasks such as environmental monitoring and adaptive sampling, surveillance, exploration, and plume tracking which are of increasing currency. Problems are solved creatively by seamless combination of theories and concepts from Bayesian statistics, mobile sensor networks, optimal experiment design, and distributed computation.
商品描述(中文翻譯)
本簡介介紹了一類問題和模型,旨在從由移動感測器網絡收集的噪聲觀測數據中預測感興趣的標量場。它還引入了機器人感測器的最佳協調問題,以在集中或分散的方式下,最大化預測質量,同時考慮通信和移動性限制。為了解決這些問題,採用了完全貝葉斯方法,這使得各種不確定性來源能夠有效地整合進推斷框架中,捕捉所有相關的變異性方面。完全貝葉斯方法還允許自動根據數據選擇額外模型參數的最適值,並實現對基礎標量場的最佳推斷和預測。特別地,針對機器人感測器,提出了時空高斯過程回歸,以融合觀測的多因素影響、測量噪聲和先驗分佈,從而獲得感興趣的標量環境場的預測分佈。為了避免對資源受限的移動感測器來說計算上過於繁重的馬爾可夫鏈蒙特卡羅方法,提出了新技術。《移動感測器網絡的貝葉斯預測與自適應取樣算法》從一個簡單的時空模型開始,逐步提高模型的靈活性和不確定性,同時解決越來越複雜的問題,應對日益增加的複雜性,最終以完全貝葉斯方法結束,考慮到觀測、不確定性、模型參數和移動感測器網絡中的約束的廣泛範疇。這本書的出版時機恰當,對於許多在控制、機器人學、計算機科學和統計學領域的研究人員來說非常有用,他們試圖解決各種任務,如環境監測、自適應取樣、監視、探索和煙羽追蹤等,這些任務的相關性日益增加。這些問題通過無縫結合貝葉斯統計、移動感測器網絡、最佳實驗設計和分散計算的理論和概念,創造性地得到了解決。