首页
登录
职称英语
Problem Description of the Flood Early Warning SystemVocabulary and Expressions
Problem Description of the Flood Early Warning SystemVocabulary and Expressions
游客
2025-01-26
26
管理
问题
Problem Description of the Flood Early Warning System
Vocabulary and Expressions
physically-based algorithm deploy populace
calibrate adaptive illiterate fuse [br] The scientists have developed statistical algorithms capable of offline, distributed computation.
The Problem Description of the Flood Early Warning System
In developing countries, warning communities of an incoming flood is an expensive proposal given their limited resources. The equipment necessary for early warning flood systems is expensive and centralized to support flood detection schemes that are computationally complex. This project explores new techniques for distributing the computation of flood detection within a wireless sensor network, grounding the research in reality through the design and installation of an early warning system for flooding in a developing country.
Sensor networks for flooding do not exist in a real-time automated capacity within developing countries. We are developing such a sensor network and examining how to distribute and adapt the flood prediction calculation. Current flood prediction relies on physically-based models requiring large amounts of data in order to calibrate the model, and significant computation power to compute the model. Neither of these being feasible on a sensor network as data,storage and computing power are limited, we are working on statistical algorithms capable of online, distributed computation.
Given a suite of robust adaptive distributed algorithms for flood warning, we are planning to implement these algorithms on a system that can be deployed within a developing country. This poses a number of challenges, ranging from survival in harsh flood environments, lack of trained personnel to maintain the system, and an illiterate populace to warn. Designing and implementing a system that addresses these issues poses interesting engineering problems. Key research questions here include: How does each sensor node measure its environment? How does each sensor communicate with the rest of the network, and convey its ongoing status given the worst weather conditions possible on a river? How and where should the information from the sensors be processed and fused?
选项
A、正确
B、错误
答案
B
解析
根据原文“…we are working on statistical algorithms capable of…”判断,offline为错误,故本题表述错误。
转载请注明原文地址:https://tihaiku.com/zcyy/3929719.html
相关试题推荐
WhatdoesthespeakerthinkaboutPeter’sopinionoftheproblem?[br][origina
IMF’sConcernaboutZimbabwe’sEconomyVocabularyandExpressionsInternational
IMF’sConcernaboutZimbabwe’sEconomyVocabularyandExpressionsInternational
IMF’sConcernaboutZimbabwe’sEconomyVocabularyandExpressionsInternational
IMF’sConcernaboutZimbabwe’sEconomyVocabularyandExpressionsInternational
IMF’sConcernaboutZimbabwe’sEconomyVocabularyandExpressionsInternational
IMF’sConcernaboutZimbabwe’sEconomyVocabularyandExpressionsInternational
IMF’sConcernaboutZimbabwe’sEconomyVocabularyandExpressionsInternational
StockMarketVocabularyandExpressionsdebtmarketliquidinvestmentu
StockMarketVocabularyandExpressionsdebtmarketliquidinvestmentu
随机试题
[originaltext]W:Lookatthetime.It’stentoten.M:Yes,thetrainwillleav
Globalisationisthemoreorlesssimultaneousmarketingandsaleofidentic
Highschoolstudentsaregrumblingovertheirschoollunches—andsoarethei
[originaltext]M:Ofthetwohouseswehaveseen,whichonedoyouthinkfitsou
[originaltext]W:Hi,Jerry,Ifinditdifficulttosolvedisputesbetweenlover
Islanguage,likefood,abasichumanneedwithoutwhichachildatacritica
信息化指的是工程管理( )的开发和利用,以及信息技术的开发和应用。A、信息编码
1.宁波市电业局江小金同志,40年来,参与设计了11750座架线铁塔,领衔设计4
说话写文章,第一要简明扼要,做到();第二要朴素、自然,防止() A.言之
矿山爆破工程中爆破图表的内容包括()。A.爆破原始条件 B.爆破参数表 C
最新回复
(
0
)