325 resources related to Weather Monitoring
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To promote awareness, understanding, advancement and application of ocean engineering and marine technology. This includes all aspects of science, engineering, and technology that address research, development, and operations pertaining to all bodies of water. This includes the creation of new capabilities and technologies from concept design through prototypes, testing, and operational systems to sense, explore, understand, develop, use, and responsibly manage natural resources.
International Geosicence and Remote Sensing Symposium (IGARSS) is the annual conference sponsored by the IEEE Geoscience and Remote Sensing Society (IEEE GRSS), which is also the flagship event of the society. The topics of IGARSS cover a wide variety of the research on the theory, techniques, and applications of remote sensing in geoscience, which includes: the fundamentals of the interactions electromagnetic waves with environment and target to be observed; the techniques and implementation of remote sensing for imaging and sounding; the analysis, processing and information technology of remote sensing data; the applications of remote sensing in different aspects of earth science; the missions and projects of earth observation satellites and airborne and ground based campaigns. The theme of IGARSS 2019 is “Enviroment and Disasters”, and some emphases will be given on related special topics.
The PCIC provides an international forum for the exchange of electrical applications technology related to the petroleum and chemical industry. The PCIC annual conference is rotated across North American locations of industry strength to attract national and international participation. User, manufacturer, consultant, and contractor participation is encouraged to strengthen the conference technical base.
The Annual IEEE PES General Meeting will bring together over 2900 attendees for technical sessions, administrative sessions, super sessions, poster sessions, student programs, awards ceremonies, committee meetings, tutorials and more
This is a conference with a focus on wireless components, applications, and systems that impact both our current and future life style. The conference's main niche is to bring together technologists, circuit designers, system designers, and entrepreneurs at a single event. It was and is the place where these worlds meet, where new processes and systems can be benchmarked against the needs of circuit designers at the bleeding edge of RF systems, where today's design compromises can trigger tomorrow's advanced technologies. Where dreams can become a reality. RWS is the cornerstone conference for Radio Wireless Week.
The IEEE Aerospace and Electronic Systems Magazine publishes articles concerned with the various aspects of systems for space, air, ocean, or ground environments.
Experimental and theoretical advances in antennas including design and development, and in the propagation of electromagnetic waves including scattering, diffraction and interaction with continuous media; and applications pertinent to antennas and propagation, such as remote sensing, applied optics, and millimeter and submillimeter wave techniques.
Computer, the flagship publication of the IEEE Computer Society, publishes peer-reviewed technical content that covers all aspects of computer science, computer engineering, technology, and applications. Computer is a resource that practitioners, researchers, and managers can rely on to provide timely information about current research developments, trends, best practices, and changes in the profession.
Management of technical functions such as research, development, and engineering in industry, government, university, and other settings. Emphasis is on studies carried on within an organization to help in decision making or policy formation for RD&E.
It is expected that GRS Letters will apply to a wide range of remote sensing activities looking to publish shorter, high-impact papers. Topics covered will remain within the IEEE Geoscience and Remote Sensing Societys field of interest: the theory, concepts, and techniques of science and engineering as they apply to the sensing of the earth, oceans, atmosphere, and space; and ...
2013 US National Committee of URSI National Radio Science Meeting (USNC-URSI NRSM), 2013
Summary form only given. A radio spectrometer of the CALLISTO type have been deployed in SWMC (Space Weather Monitoring Centre) at the Helwan University, south of Cairo in Egypt to observe solar flares for space weather monitoring. The operational installation/configuration was supported by a `Teaching Stay Grant' provided by the North-South Centre of ETH Zürich. Logarithmic-periodic antenna was installed on ...
IGARSS 2018 - 2018 IEEE International Geoscience and Remote Sensing Symposium, 2018
Both ESA/Eumetsat and NASA/NOAA have had a GEO and a polar component of space- based operational weather monitoring for decades. However, constellations of a few dozen small satellites in LEO can now provide sub-hour revisit times similar to those achieved from GEO and better spatial resolution than GEO for the same cost as a large GEO satellite. On the other ...
2014 IEEE 11th Intl Conf on Ubiquitous Intelligence and Computing and 2014 IEEE 11th Intl Conf on Autonomic and Trusted Computing and 2014 IEEE 14th Intl Conf on Scalable Computing and Communications and Its Associated Workshops, 2014
A high density real time weather monitoring system helps us to reduce the damage of disaster. We can utilize this data not only disaster but also agriculture, education material and so on. To install automatic weather stations (AWSs) to the real field, we have to consider a high temperature, dust, heavy rain, power outage, cost, etc. In India. In this ...
2018 IEEE International Conference on System, Computation, Automation and Networking (ICSCA), 2018
The Home Automation System is mainly constructed to make it easy for the user nowadays in their household, in this era of automation. The weather monitoring system is used to monitor different weather parameters. This project is a combination of both the ideas to automate the surroundings around the user to make it pleasant and comfortable conditions even if the ...
2013 International Conference on Computer, Control, Informatics and Its Applications (IC3INA), 2013
Today many organizations, scientific institutions and govevernment agencies are installing monitoring stations to monitor weather data and tides data as raw data for weather forecasts and for the analysis of other marine parameters, such as ocean currents or acean waves. However these data are still scattered on separate systems. Therefore insterested parties are still difficult to access all the data. ...
Self-Driving Buses: Minnesota Pilot Project - IEEE Region 4 Presentation
CES 2008: Ford and Sirius Team Up for In-Car Navigation
EMBC 2011 -Keynote- Applications and Opportunities for Wearable Technology in Physiological Monitoring -Dale Wiggins
Q&A with Chris Berka: IEEE Brain Podcast, Episode 9
IEEE 125th Anniversary Media Event: Pattern Recognition
The Full Spectrum: COSMIC Satellites Use GPS to Forecast Weather
Group on Earth Observations(GEOSS): Technology
Group on Earth Observations(GEOSS): Applications
Marin Litoiu: Beyond Network Control - End to End Performance of CPS: WF IoT 2016
Generation of Models for Wireless Sensor Network Assessment
Engineering in Medicine and Biology: Segment 3
Micro-Apps 2013: Precision RF/MW Cable and Antenna Test in the Field
Ignite! Session: Blake Lloyd
Remote Sensing in Community Forestry - GHTC 2012 Sessions - Eric Kaiser & Kimberly Roberts
Tech Super Stars Panelist - Marc Bracken: 2016 Technology Time Machine
Information Technology: Careers for the information age
From THz imaging to millimeter-wave stimulation of neurons: Is there a killer application for high frequency RF in the medical community? (RFIC 2015 Keynote)
IEEE in the North and South Poles (INSP) - Tony Milne - Ignite: Sections Congress 2017
Raffaele Giaffreda: Solving IoT Interoperability and Security Problems in an eHealth Context: WF-IoT 2016
Summary form only given. A radio spectrometer of the CALLISTO type have been deployed in SWMC (Space Weather Monitoring Centre) at the Helwan University, south of Cairo in Egypt to observe solar flares for space weather monitoring. The operational installation/configuration was supported by a `Teaching Stay Grant' provided by the North-South Centre of ETH Zürich. Logarithmic-periodic antenna was installed on top of the roof of the SWMC institute. Height of the antenna is 6m, the longest dipoles covering 20 MHz have about 6m. The preamplifier is a ZX60-33LN+ from Mini Circuits. Antenna cable (HX-50) is 30m long down to Callisto receiver.
Both ESA/Eumetsat and NASA/NOAA have had a GEO and a polar component of space- based operational weather monitoring for decades. However, constellations of a few dozen small satellites in LEO can now provide sub-hour revisit times similar to those achieved from GEO and better spatial resolution than GEO for the same cost as a large GEO satellite. On the other hand, the large instruments typically used for GEO-based monitoring must be broken down into components in order to be allocated to smaller satellites. This paper describes a methodology to systematically study this large and rich architecture space and discuss under what circumstances and for what purposes a GEO component may still be superior to LEO. The focus is on coverage-cost tradeoffs, whereas other important considerations are left for future work.
A high density real time weather monitoring system helps us to reduce the damage of disaster. We can utilize this data not only disaster but also agriculture, education material and so on. To install automatic weather stations (AWSs) to the real field, we have to consider a high temperature, dust, heavy rain, power outage, cost, etc. In India. In this paper, we describe how to install low cost weather monitoring system to appalling environment and make it stable through our 19 AWSs installation challenge experience in Hyderabad city, India.
The Home Automation System is mainly constructed to make it easy for the user nowadays in their household, in this era of automation. The weather monitoring system is used to monitor different weather parameters. This project is a combination of both the ideas to automate the surroundings around the user to make it pleasant and comfortable conditions even if the weather is different. This system is used to cope up with the environmental conditions and make the home comfortable automatically or by just switching it through android app installed in a phone. The system can be operated by blind or disabled people through the voice recognition technique. A security system is also included to open the door by entering password. The system is cost - effective and flexible with many types of device to be controlled.
Today many organizations, scientific institutions and govevernment agencies are installing monitoring stations to monitor weather data and tides data as raw data for weather forecasts and for the analysis of other marine parameters, such as ocean currents or acean waves. However these data are still scattered on separate systems. Therefore insterested parties are still difficult to access all the data. This paper propose the design of data center for weather and tides monitoring located in several operational databases. The data center is developed from existing unidalog's relational database system. Data warehouse technique is used because it is a more simple solution to integrate the data. Open Source software RDBMS - MySQL is used for deploying the data center.
A weather station with communication capability allows remote weather monitoring, which observations help us to estimate flooding and to make an alarm for evacuation from potential weather-related disasters. Rainfall often comes with a very local weather phenomenon, and to capture them, we have to deploy many weather stations geographically densely. This paper provides our study on a city-scale weather monitoring system for disaster management applications. We have identified a compact observation scheme for city-scale weather monitoring with campus networks, and developed our weather stations. In this work, we have deployed our weather stations at 18 locations over the city of Hyderabad India, and evaluated the performance of our city-scale weather monitoring system. With our preliminary analysis on the observations of 15th June 2014, we confirmed that our system had detected very heavy, local and short-term rainfall, sudden temperature changes, sudden wind changes, and rapid and very local air pressure changes. These results indicate that we can use this type of city-scale weather monitoring system for capturing the local weather phenomenon and for disaster management applications.
Modern weather forecasting models are developed to maximize the accuracy of forecasts by running computationally intensive algorithms with vast volumes of data. Consequently, algorithms take a long time to execute, and it may adversely affect the timeliness of forecast. One solution to this problem is to run the complex weather forecasting models only on the potentially hazardous events, which are pre-identified by a lightweight data filtering algorithm. We propose a Complex Event Processing (CEP) and Machine Learning (ML) based weather monitoring framework using open source resources that can be extended and customized according to the users' requirements. The CEP engine continuously filters out the input weather data stream to identify potentially hazardous weather events, and then generates a rough boundary enclosing all the data points within the Areas of Interest (AOI). Filtered data points are then fed to the machine learner, where the rough boundary gets more refined by clustering it into a set of AOIs. Each cluster is then concurrently processed by complex weather algorithms of the WRF model. This reduces the computational time by ~75%, as resource heavy weather algorithms are executed using a small subset of data that corresponds to only the areas with potentially hazardous weather.
In response to a need for a rapid access of real-time weather data in regional mesoscale weather monitoring, a data browser system based on various WebGis components is developed. Because of using a distributed system, such a data browser system can decompose the entire data processing task into several subsystems, but the database can integrate and manage each subsystem, create a product preprocessor, and carry out standardization for data dissemination. A B/S type of software is designed and developed, which allows to analyze the data, rapidly disseminate the geographic informational data, as well as interactively plot and statistically analyze the data. This system provides an application platform under INTERNET and INTRANET environment. It can also allow for several users to access weather operational products concurrently from different remote sites.
Weather monitoring has become a quintessential aspect in a variety of fields. Often the challenge lies in fetching accurate information from the site. Having weather information regarding just a particular city isn't sufficient as the weather changes are brisk. In a large city, weather conditions vary from region-to-region. Zone-specific information is needed during such scenarios. Crowdsourcing can be largely influential in such cases. By acquiring resources from a group of service providers, it can aid in the easy retrieval of weather parameters. The most significant players in this approach are the Telecom Service Providers, who have a pool of infrastructure in the form of towers and grids. This infrastructure can be coupled with wireless weather stations to provide real-time weather data. In this paper, we propose a weather monitoring system which is a confluence of embedded systems, crowdsourcing and telecom infrastructure.
This paper proposes the design of real-time weather monitoring system based on a mobile application using Automatic Weather Station (AWS). The system connects to the AWS equipped with several sensors for collecting data and storing the data to the web server. Data from weather sensor is taken from the AWS-Davis Instrument using the WeatherLink software. The data is transmitted through the data logger using serial communication, uploaded via FTP and stored on a webserver. The Android application reads the files and displays the information provided by the web server in real-time. The system has successfully show real-time monitoring of weather through the mobile application with a flexibility in the parameters and the need of user interface (UI) design compared to the other solution.
No standards are currently tagged "Weather Monitoring"