The document introduces how space technology can be utilized for social infrastructure and applications. It provides examples of using satellite imagery and data for forest monitoring, fisheries management, traffic information systems, precision agriculture, weather forecasting, climate change monitoring, and map updating. Space technology allows for global observation, improved resource management, and more efficient social and economic activities. The textbook aims to educate about Japan's expertise in applying space solutions to issues like deforestation, maritime security, disaster mitigation, and international environmental responsibilities.
The INSAT program was established in 1983 as a joint venture between Indian government departments to create India's national satellite system. INSAT is the largest domestic communication system in Asia Pacific, consisting of 11 operational satellites providing television, communication, meteorology, and other services to India. Key INSAT satellites include EDUSAT for educational services and those providing disaster warning, weather forecasting, and telemedicine applications.
INDIAN SPACE RESEARCH ORGANIZATION INSAT FAMILY ,
Asteroid / Comet flyby mission: Possible time frame- 2015
Mission to Mars :Timeframe- 2019
Human Mission : Timeframe 2020
Missions to other planets (Venus, Mercury…Vision beyond 2020)
Asteroid / Comet flyby mission: Possible time frame- 2015
Mission to Mars :Timeframe- 2019
Human Mission : Timeframe 2020
Missions to other planets (Venus, Mercury…Vision beyond 2020)
Asteroid / Comet flyby mission: Possible time frame- 2015
Mission to Mars :Timeframe- 2019
Human Mission : Timeframe 2020
Missions to other planets (Venus, Mercury…Vision beyond 2020)
Television Broadcasting
Direct To Home (DTH)
TV & Radio Networking
The document discusses the history and development of India's space program and satellite technology. It summarizes that India launched its first satellite in 1975 using foreign satellites, conducted its own experiments in the 1970s, and launched its first experimental communication satellite in 1981. It then describes India's INSAT domestic communication satellite system, which now serves television and communication needs across India with multiple satellites.
Indian Satellite Program (2001-2020)
India has developed an extensive satellite program over the past two decades focused on earth observation, communication, space science, and navigation. Key satellites include resources satellites to monitor land and water resources, radar satellites like RISAT for all-weather imaging, Cartosat satellites for mapping applications, Oceansat for ocean and atmospheric monitoring, space science satellites like Chandrayaan and Astrosat, and navigation satellites. The program is led by ISRO and has supported applications in agriculture, disaster management, and development planning.
This document discusses the history and technologies of space exploration. It begins with an introduction to space technology and its importance. It then discusses the early history of space technology development in Russia, the US and Germany in the early 20th century. It outlines some of India's contributions to space exploration, including the establishment of the Indian Space Research Organization. The document then discusses various space technologies such as spacecraft, satellites, life support systems and their uses in areas like communication, weather forecasting, and consumer technologies.
This document discusses the use of drones, or unmanned aerial vehicles, for conservation purposes. Drones can be used to map land changes, monitor wildlife, and survey habitat areas. They provide real-time data using cameras and sensors without requiring people in remote locations. While drones have advantages over satellites like lower costs and ability to fly at low altitudes, they also have disadvantages such as noise disturbing wildlife and needing to follow FAA regulations. The document specifically discusses how drones are being used to monitor invasive algal blooms by collecting multi-spectral data on algal growth and distribution over time.
Space technology has many applications including space archaeology, spacecraft navigation, meteorology, space colonization, satellite technologies, military satellites, reconnaissance satellites, communications satellites, geosynchronous satellites, satellite imaging, and disaster management. Some key uses of space technology are for communication satellites, GPS navigation, weather and climate monitoring, earth observation, urban planning, agriculture, forestry, mining, environmental monitoring, and more. Space-based technologies are increasingly important for areas like disaster response, resource management, and supporting economic growth.
The document provides information about Japan's manned and unmanned space development programs. It discusses Japan's contributions to the International Space Station, including the Japanese Experiment Module and the H-II Transfer Vehicle. It also describes Japan's domestic rocket programs, noting that the country has developed both solid-fuel rockets like Epsilon and liquid-fuel rockets like H-IIA, which have among the highest reliability rates in the world for launches. The document aims to improve knowledge about Japan's participation in international space cooperation and its independent space transportation systems.
The INSAT program was established in 1983 as a joint venture between Indian government departments to create India's national satellite system. INSAT is the largest domestic communication system in Asia Pacific, consisting of 11 operational satellites providing television, communication, meteorology, and other services to India. Key INSAT satellites include EDUSAT for educational services and those providing disaster warning, weather forecasting, and telemedicine applications.
INDIAN SPACE RESEARCH ORGANIZATION INSAT FAMILY ,
Asteroid / Comet flyby mission: Possible time frame- 2015
Mission to Mars :Timeframe- 2019
Human Mission : Timeframe 2020
Missions to other planets (Venus, Mercury…Vision beyond 2020)
Asteroid / Comet flyby mission: Possible time frame- 2015
Mission to Mars :Timeframe- 2019
Human Mission : Timeframe 2020
Missions to other planets (Venus, Mercury…Vision beyond 2020)
Asteroid / Comet flyby mission: Possible time frame- 2015
Mission to Mars :Timeframe- 2019
Human Mission : Timeframe 2020
Missions to other planets (Venus, Mercury…Vision beyond 2020)
Television Broadcasting
Direct To Home (DTH)
TV & Radio Networking
The document discusses the history and development of India's space program and satellite technology. It summarizes that India launched its first satellite in 1975 using foreign satellites, conducted its own experiments in the 1970s, and launched its first experimental communication satellite in 1981. It then describes India's INSAT domestic communication satellite system, which now serves television and communication needs across India with multiple satellites.
Indian Satellite Program (2001-2020)
India has developed an extensive satellite program over the past two decades focused on earth observation, communication, space science, and navigation. Key satellites include resources satellites to monitor land and water resources, radar satellites like RISAT for all-weather imaging, Cartosat satellites for mapping applications, Oceansat for ocean and atmospheric monitoring, space science satellites like Chandrayaan and Astrosat, and navigation satellites. The program is led by ISRO and has supported applications in agriculture, disaster management, and development planning.
This document discusses the history and technologies of space exploration. It begins with an introduction to space technology and its importance. It then discusses the early history of space technology development in Russia, the US and Germany in the early 20th century. It outlines some of India's contributions to space exploration, including the establishment of the Indian Space Research Organization. The document then discusses various space technologies such as spacecraft, satellites, life support systems and their uses in areas like communication, weather forecasting, and consumer technologies.
This document discusses the use of drones, or unmanned aerial vehicles, for conservation purposes. Drones can be used to map land changes, monitor wildlife, and survey habitat areas. They provide real-time data using cameras and sensors without requiring people in remote locations. While drones have advantages over satellites like lower costs and ability to fly at low altitudes, they also have disadvantages such as noise disturbing wildlife and needing to follow FAA regulations. The document specifically discusses how drones are being used to monitor invasive algal blooms by collecting multi-spectral data on algal growth and distribution over time.
Space technology has many applications including space archaeology, spacecraft navigation, meteorology, space colonization, satellite technologies, military satellites, reconnaissance satellites, communications satellites, geosynchronous satellites, satellite imaging, and disaster management. Some key uses of space technology are for communication satellites, GPS navigation, weather and climate monitoring, earth observation, urban planning, agriculture, forestry, mining, environmental monitoring, and more. Space-based technologies are increasingly important for areas like disaster response, resource management, and supporting economic growth.
The document provides information about Japan's manned and unmanned space development programs. It discusses Japan's contributions to the International Space Station, including the Japanese Experiment Module and the H-II Transfer Vehicle. It also describes Japan's domestic rocket programs, noting that the country has developed both solid-fuel rockets like Epsilon and liquid-fuel rockets like H-IIA, which have among the highest reliability rates in the world for launches. The document aims to improve knowledge about Japan's participation in international space cooperation and its independent space transportation systems.
This document provides an overview of Japanese space development. It discusses engineering test satellites that were used to develop technologies for actual use satellites. It then describes several types of actual use satellites developed by Japan, including earth observation, communication, meteorological, and positioning satellites. It also discusses space science exploration, including lunar and planetary exploration, asteroid exploration, solar observation, and astronomical observation. The overall purpose is to improve knowledge about Japanese space development programs and technologies.
This ppt is about the basic information about Remote Sensing and GIS and their Apps. in Environmental Management (Prepared by Mandeep Poonia at GJU S&T, Hisar (Haryana) ,India)
The document summarizes key details about India's space program and satellites. It provides information on 50 Indian satellites launched between 1975 and 2008, including their names, launch dates, payloads, and purpose. It also discusses India's goals of developing its own GPS system and launching around 7 satellites by 2010. The first Indian satellite was Aryabhata, launched in 1975, and Chandrayaan-1 was India's first lunar mission, launched in 2008.
India has a robust space program with capabilities including launching satellites for earth observation, communications, navigation, and deep space exploration. Key accomplishments include launching Chandrayaan-1 to the moon in 2008, 100 successful space missions including foreign satellite launches, and plans for future missions such as Chandrayaan-2 and the Mars Orbiter Mission. India has established infrastructure like satellite development and launch facilities, tracking networks, and participates in international cooperation on projects.
New microsoft power point presentation (18)hindujudaic
India plans to develop a crew vehicle that can carry 2-3 astronauts aboard its Geosynchronous Satellite Launch Vehicle Mk-III rocket. The crew vehicle will be a modified Soyuz capsule that launches atop the GSLV rocket and carries astronauts for a 7 day mission in low Earth orbit. ISRO is developing key systems for human spaceflight including a crew escape system, thermal protection for re-entry, life support systems, and a new launch pad.
Types of satellite metrological & resource satellitesManish Kothe
The document discusses different types of satellites used for remote sensing including earth resource satellites, Landsat series satellites, SPOT satellites, Indian remote sensing satellites, IKONOS, meteorological/weather satellites like NOAA and GOES, and Indian national satellites like INSAT. It provides details on the sensors, spectral and spatial resolution, swath width, orbital altitude, and launch period of these various satellite systems used for monitoring earth's resources, weather, environment and climate.
A GEO satellite’s distance from earth gives it a large coverage area, almost a fourth of the earth’s surface and also have 24 hour view of a particular area.This will be very helpful to army,navy etc.,These factors make it ideal for satellite broadcast and other multipoint applications.Continuous monitoring is done and also cost effective in long term, risk-less.
Application of Remote Sensing in Civil EngineeringIEI GSC
Presentation cum talk delivered by Dr Anjana Vyas, Dean CEPT University, Ahmedabad during 31st National Convention of Civil Engineering organized by The Institution of Engineers (India) Gujarat State Center, Ahmedabad
The document summarizes recent space achievements of India from 2010-2014 by the Indian Space Research Organisation (ISRO). It discusses successful satellite launches using the Polar Satellite Launch Vehicle (PSLV) and Geosynchronous Satellite Launch Vehicle (GSLV), including launches of communication, earth observation, and navigation satellites. It also covers the first Indian Mars Orbiter Mission in 2013. Key missions highlighted include the launch of GSAT satellites, Resourcesat, and the successful development of India's own cryogenic rocket engine technology.
Galaxy Forum Chiang Mai 2020 PPT by Chatief Kunjaya of ITBILOAHawaii
This document summarizes astronomy-related institutions and research in Indonesia. It discusses departments of astronomy at ITB and Bosscha Observatory, as well as planetariums around the country. It also outlines plans for a future National Observatory, including the site design and progress. International cooperation is mentioned regarding a radio telescope and East Asian Observatory. Developing astrotourism around future celestial events is also discussed.
This document discusses using space technology for disaster management. It introduces how satellite data can help with hazards mapping, monitoring volcanoes and ground deformation, and discriminating damage from tsunamis, floods, landslides, and more. International frameworks like Sentinel Asia and the International Charter on Space & Major Disasters are also covered, which provide satellite data during disasters. Overall, the document outlines how space technology can improve disaster response and prevention by allowing around-the-clock monitoring from space when conditions on the ground limit visibility and access.
Autonomous surface vessel for search and rescue operationjournalBEEI
Search and rescue operation is performed to save human life, for example during natural disasters, unfortunate incidents on the land, in the deepwater, or lakes. There were incidents happened to the search and rescue crew during the operation although they were well trained. A new method using robotic technology is important to reduce the crew's risk during operations. This research proposed a development of an autonomous surface vessel for search and rescue operations for deepwater applications. The proposed autonomous surface vessel is equipped with a global positioning system (GPS) and underwater sensor to search for the victims, black box, debris, or other evidence on the surface and underwater. The vessel was designed with monitoring and control via radio frequency wireless communication. The autonomous surface vessel prototype was developed and tested successfully with the telemetry at the ground station. The ground station acts as the control centre of the overall system. Results showed the vessel successfully operated autonomously. The operator at the ground station was able to monitor the sensor data and control the vessel's manoeuvre according to the created path. The telemetry coverage to monitor the water surroundings and control the vessel's manoeuvre was around 100 meters.
Disaster monitoring by multi-temporal images of the 2011 Tohoku Earthquake an...grssieee
PASCO analyzed data from satellites, aircraft, and vehicles after the 2011 Tohoku earthquake and tsunami to monitor the affected areas. Multi-source and multi-temporal data allowed automatic detection of inundation areas within hours of acquisition. Flood maps covering over 12,000 km2 were created from various satellite images and distributed to authorities for disaster management.
Wetland and Water Bodies Atlas of Jammu and kashmirShakil Romshoo
This Atlas is prepared at 1: 50, 000 scale based on remote sensing and detailed fieldwork. The Atlas was developed by my research group with financial support of the Indian Space Research Organization (ISRO)
Topic 1.2- Electronic Equipment used on ships (Navigational Equipment).pptxMartMantilla1
Modern ships have a variety of navigation equipment that makes navigation simpler and safer than in the past. This includes gyro compasses, radar, magnetic compasses, autopilots, ARPA, automatic tracking aids, voyage data recorders, GPS receivers, sound reception systems, and navigational lights. Together, this navigation equipment provides accurate positioning and directional information and helps ships safely plan and conduct voyages.
Exploring ImageJ toolbox for Oceanography: A case study in Malacca StraitsIRJESJOURNAL
Abstract: The oil discharges in marinas and coastal areas has adversely affected the marine environment that has become the driving force for the early detection of oil spills to allow timely intervention. Synthetic Aperture Radar (SAR) data represents an effective tool that is extensively used for the detection and identification of oil spills in the marine environment. This paper aims at exploring the plugins available in ImageJ, a popular public domain Java image processing and analysis program at the National institute of Health (NIH), in the detection of oil spills for oceanography. As the popularity of the ImageJ open-source comes from being extensively used in biomedical and medical image processing applications, this study showed that ImageJ is a good choice for the detection of oil spills in oceanography applications throughout the extensibility capability supported by ImageJ framework.
The document summarizes India's Earth observation programme. It discusses successful launches of satellites like INSAT-3DR, PSLV-C34 carrying 20 satellites, and PSLV rockets carrying IRNSS satellites. Currently operational missions include Oceansat-2, RISAT-1, Resourcesat-2 for applications like weather, climate, oceanography. Future missions through 2020 include Cartosat-2E, GISAT-1, RISAT-1A, Oceansat-3 for cartography, disaster management and ocean applications. It also discusses data and services provided by MOSDAC for meteorology, oceanography, cyclone tracking, and intense rainfall monitoring. Land based applications through V
Remote sensing involves obtaining information about objects without physical contact using sensors. It has a long history dating back to the 1840s and became more advanced with satellite technology. Remote sensing is used for applications like urban planning, agriculture, natural resource management, and more. India has developed its own remote sensing program using satellites to support the economy and monitor issues like agriculture, forestry, and disasters. Remote sensing provides large-area coverage and repetitive monitoring but requires specialized training and may have accuracy issues.
Advances in satellite EO data analytics for aquaculture - Aquaculture Canada ...GEO Analytics Canada
World aquaculture production continues to grow and now provides half of all fish for human consumption (FAO, 2016a), but its sustainability is being impacted by climate change, competition for space and natural resources, pollution and environmental degradation. Effective management of the sector requires appropriate and accessible data to inform management decisions. Satellite earth observation technology has developed rapidly in the past five years, with numerous advances in spatial resolution, spectral information, frequency of observation, and cost-effectiveness (open data). The information can inform aquaculture development (strategic planning, zonation and site suitability), aquaculture practice and management (inventory, status, monitoring of the environment and monitoring at the farm level), and aquaculture risk management (disaster risk management, response, recovery, monitoring and assessment). While the growing volume of satellite data represents a unique opportunity for aquaculture, it also poses a major challenge to achieve its full potential in terms of extracting valuable management information. A variety of big-data platforms currently seek to address these issues by bringing together satellite data, environmental data, and analytics processing systems. These platforms include the European Space Agency funded Coastal and Food Security Platforms and Google’s Earth Engine. Each platform has a variety of benefits which are discussed.
This document provides an overview of Japanese space development. It discusses engineering test satellites that were used to develop technologies for actual use satellites. It then describes several types of actual use satellites developed by Japan, including earth observation, communication, meteorological, and positioning satellites. It also discusses space science exploration, including lunar and planetary exploration, asteroid exploration, solar observation, and astronomical observation. The overall purpose is to improve knowledge about Japanese space development programs and technologies.
This ppt is about the basic information about Remote Sensing and GIS and their Apps. in Environmental Management (Prepared by Mandeep Poonia at GJU S&T, Hisar (Haryana) ,India)
The document summarizes key details about India's space program and satellites. It provides information on 50 Indian satellites launched between 1975 and 2008, including their names, launch dates, payloads, and purpose. It also discusses India's goals of developing its own GPS system and launching around 7 satellites by 2010. The first Indian satellite was Aryabhata, launched in 1975, and Chandrayaan-1 was India's first lunar mission, launched in 2008.
India has a robust space program with capabilities including launching satellites for earth observation, communications, navigation, and deep space exploration. Key accomplishments include launching Chandrayaan-1 to the moon in 2008, 100 successful space missions including foreign satellite launches, and plans for future missions such as Chandrayaan-2 and the Mars Orbiter Mission. India has established infrastructure like satellite development and launch facilities, tracking networks, and participates in international cooperation on projects.
New microsoft power point presentation (18)hindujudaic
India plans to develop a crew vehicle that can carry 2-3 astronauts aboard its Geosynchronous Satellite Launch Vehicle Mk-III rocket. The crew vehicle will be a modified Soyuz capsule that launches atop the GSLV rocket and carries astronauts for a 7 day mission in low Earth orbit. ISRO is developing key systems for human spaceflight including a crew escape system, thermal protection for re-entry, life support systems, and a new launch pad.
Types of satellite metrological & resource satellitesManish Kothe
The document discusses different types of satellites used for remote sensing including earth resource satellites, Landsat series satellites, SPOT satellites, Indian remote sensing satellites, IKONOS, meteorological/weather satellites like NOAA and GOES, and Indian national satellites like INSAT. It provides details on the sensors, spectral and spatial resolution, swath width, orbital altitude, and launch period of these various satellite systems used for monitoring earth's resources, weather, environment and climate.
A GEO satellite’s distance from earth gives it a large coverage area, almost a fourth of the earth’s surface and also have 24 hour view of a particular area.This will be very helpful to army,navy etc.,These factors make it ideal for satellite broadcast and other multipoint applications.Continuous monitoring is done and also cost effective in long term, risk-less.
Application of Remote Sensing in Civil EngineeringIEI GSC
Presentation cum talk delivered by Dr Anjana Vyas, Dean CEPT University, Ahmedabad during 31st National Convention of Civil Engineering organized by The Institution of Engineers (India) Gujarat State Center, Ahmedabad
The document summarizes recent space achievements of India from 2010-2014 by the Indian Space Research Organisation (ISRO). It discusses successful satellite launches using the Polar Satellite Launch Vehicle (PSLV) and Geosynchronous Satellite Launch Vehicle (GSLV), including launches of communication, earth observation, and navigation satellites. It also covers the first Indian Mars Orbiter Mission in 2013. Key missions highlighted include the launch of GSAT satellites, Resourcesat, and the successful development of India's own cryogenic rocket engine technology.
Galaxy Forum Chiang Mai 2020 PPT by Chatief Kunjaya of ITBILOAHawaii
This document summarizes astronomy-related institutions and research in Indonesia. It discusses departments of astronomy at ITB and Bosscha Observatory, as well as planetariums around the country. It also outlines plans for a future National Observatory, including the site design and progress. International cooperation is mentioned regarding a radio telescope and East Asian Observatory. Developing astrotourism around future celestial events is also discussed.
This document discusses using space technology for disaster management. It introduces how satellite data can help with hazards mapping, monitoring volcanoes and ground deformation, and discriminating damage from tsunamis, floods, landslides, and more. International frameworks like Sentinel Asia and the International Charter on Space & Major Disasters are also covered, which provide satellite data during disasters. Overall, the document outlines how space technology can improve disaster response and prevention by allowing around-the-clock monitoring from space when conditions on the ground limit visibility and access.
Autonomous surface vessel for search and rescue operationjournalBEEI
Search and rescue operation is performed to save human life, for example during natural disasters, unfortunate incidents on the land, in the deepwater, or lakes. There were incidents happened to the search and rescue crew during the operation although they were well trained. A new method using robotic technology is important to reduce the crew's risk during operations. This research proposed a development of an autonomous surface vessel for search and rescue operations for deepwater applications. The proposed autonomous surface vessel is equipped with a global positioning system (GPS) and underwater sensor to search for the victims, black box, debris, or other evidence on the surface and underwater. The vessel was designed with monitoring and control via radio frequency wireless communication. The autonomous surface vessel prototype was developed and tested successfully with the telemetry at the ground station. The ground station acts as the control centre of the overall system. Results showed the vessel successfully operated autonomously. The operator at the ground station was able to monitor the sensor data and control the vessel's manoeuvre according to the created path. The telemetry coverage to monitor the water surroundings and control the vessel's manoeuvre was around 100 meters.
Disaster monitoring by multi-temporal images of the 2011 Tohoku Earthquake an...grssieee
PASCO analyzed data from satellites, aircraft, and vehicles after the 2011 Tohoku earthquake and tsunami to monitor the affected areas. Multi-source and multi-temporal data allowed automatic detection of inundation areas within hours of acquisition. Flood maps covering over 12,000 km2 were created from various satellite images and distributed to authorities for disaster management.
Wetland and Water Bodies Atlas of Jammu and kashmirShakil Romshoo
This Atlas is prepared at 1: 50, 000 scale based on remote sensing and detailed fieldwork. The Atlas was developed by my research group with financial support of the Indian Space Research Organization (ISRO)
Topic 1.2- Electronic Equipment used on ships (Navigational Equipment).pptxMartMantilla1
Modern ships have a variety of navigation equipment that makes navigation simpler and safer than in the past. This includes gyro compasses, radar, magnetic compasses, autopilots, ARPA, automatic tracking aids, voyage data recorders, GPS receivers, sound reception systems, and navigational lights. Together, this navigation equipment provides accurate positioning and directional information and helps ships safely plan and conduct voyages.
Exploring ImageJ toolbox for Oceanography: A case study in Malacca StraitsIRJESJOURNAL
Abstract: The oil discharges in marinas and coastal areas has adversely affected the marine environment that has become the driving force for the early detection of oil spills to allow timely intervention. Synthetic Aperture Radar (SAR) data represents an effective tool that is extensively used for the detection and identification of oil spills in the marine environment. This paper aims at exploring the plugins available in ImageJ, a popular public domain Java image processing and analysis program at the National institute of Health (NIH), in the detection of oil spills for oceanography. As the popularity of the ImageJ open-source comes from being extensively used in biomedical and medical image processing applications, this study showed that ImageJ is a good choice for the detection of oil spills in oceanography applications throughout the extensibility capability supported by ImageJ framework.
The document summarizes India's Earth observation programme. It discusses successful launches of satellites like INSAT-3DR, PSLV-C34 carrying 20 satellites, and PSLV rockets carrying IRNSS satellites. Currently operational missions include Oceansat-2, RISAT-1, Resourcesat-2 for applications like weather, climate, oceanography. Future missions through 2020 include Cartosat-2E, GISAT-1, RISAT-1A, Oceansat-3 for cartography, disaster management and ocean applications. It also discusses data and services provided by MOSDAC for meteorology, oceanography, cyclone tracking, and intense rainfall monitoring. Land based applications through V
Remote sensing involves obtaining information about objects without physical contact using sensors. It has a long history dating back to the 1840s and became more advanced with satellite technology. Remote sensing is used for applications like urban planning, agriculture, natural resource management, and more. India has developed its own remote sensing program using satellites to support the economy and monitor issues like agriculture, forestry, and disasters. Remote sensing provides large-area coverage and repetitive monitoring but requires specialized training and may have accuracy issues.
Advances in satellite EO data analytics for aquaculture - Aquaculture Canada ...GEO Analytics Canada
World aquaculture production continues to grow and now provides half of all fish for human consumption (FAO, 2016a), but its sustainability is being impacted by climate change, competition for space and natural resources, pollution and environmental degradation. Effective management of the sector requires appropriate and accessible data to inform management decisions. Satellite earth observation technology has developed rapidly in the past five years, with numerous advances in spatial resolution, spectral information, frequency of observation, and cost-effectiveness (open data). The information can inform aquaculture development (strategic planning, zonation and site suitability), aquaculture practice and management (inventory, status, monitoring of the environment and monitoring at the farm level), and aquaculture risk management (disaster risk management, response, recovery, monitoring and assessment). While the growing volume of satellite data represents a unique opportunity for aquaculture, it also poses a major challenge to achieve its full potential in terms of extracting valuable management information. A variety of big-data platforms currently seek to address these issues by bringing together satellite data, environmental data, and analytics processing systems. These platforms include the European Space Agency funded Coastal and Food Security Platforms and Google’s Earth Engine. Each platform has a variety of benefits which are discussed.
ILOA Galaxy Forum SEA Indonesia -- DjamaluddinILOAHawaii
The 3rd Regional Galaxy Forum Southeast Asia is taking place at the National Institute of Aeronautics and Space (LAPAN) branch office in Bandung, West Java, Indonesia. In addition to ILOA, the event is co-organized by the Institute of Technology Bandung (ITB). Faculty of the Department of Astronomy at ITB have been a key factor in the development of the regional SEA Galaxy Forum program.
Indonesia, the world’s 4th most populous country, is building 21st Century capabilities and investing in the future of Astronomy and Astronautics to the immediate benefit of students in every class across the archipelago. Scientists at the Bosscha Observatory, ITB and others, continue with plans to construct a 2.5-m class telescope and a 1-m radio telescope at Mount Timau or Mount Rinjani.
LAPAN is planning to complete work on a Space Port and Launch Center at Morotai Island by 2025. This complex is to act as the test site and future operational base of the LAPAN experimental satellite launcher. Last year the Rocket Technology Center conducted a successful static test of the RX 320 booster generating thrust of up to 4.9 tons. This is one of two rockets that will form the building blocks of the 4 stage orbital satellite rocket Roket Pengorbit Satelit (RPS) that is currently in development.
1) The document describes an amphibious vehicle called the Amphibian Ranger that can be used for agricultural and rescue purposes.
2) It uses hovercraft technology to move across land, water, and marshy areas for agricultural tasks like spraying pesticides. It has features like GPS and night vision for monitoring fields.
3) The vehicle can also be used for rescue operations in disaster areas by using sensors to detect humans and provide alerts to rescuers, helping to locate people faster than conventional methods.
Spaceborne Imagery For Environmental & Disaster Monitoringgpetrie
The document discusses the use of spaceborne imagery for environmental and disaster monitoring. It provides examples of how satellite imagery has been used to monitor various natural disasters such as flooding, landslides, volcanic eruptions and forest fires. It also discusses how satellites are used to monitor ongoing environmental changes, such as receding glaciers, sand and dust storms, algal blooms, mining, agriculture and deforestation. Different types of satellites are used depending on the specific monitoring needs and situations.
Use of Drones in Humanitarian Action and Disaster ManagementNepal Flying Labs
Presentation on the works carried out by WeRobotics and its Flying lab network during seminar series “Intrepid Solutions”, set up by Build Change and the Nepali Engineers’ Association (NEA) at its headquarter office in Pulchowk. Intrepid solution is an initiative to stimulate discussions between local practicing engineers, local researchers and international experts.
About the paper USC CINAPS Builds Bridges Observing and Monitoring the Southe...Giovanni Murru
About the paper
USC CINAPS Builds Bridges Observing and Monitoring the Southern California Bight.
In the presentation we also talk about the importance of robots in response to the BP Oil disaster, also knows as Deepwater Horizon oil spill.
The CNR (National Research Council of Italy) supports Italy's space sector in several areas:
- Earth observation for studying natural phenomena and risks using satellites and new platforms like stratospheric balloons and nanosatellites.
- Developing new observational payloads and data management systems.
- Launching small satellites from an airborne "AirLaunch" platform.
- Materials, communications, and technologies for energy storage and efficiency with applications for aerospace.
The CNR collaborates closely with the government and industry to provide scientific and technological support and strengthen Italy's role in space.
This document provides an overview of ocean monitoring satellites operated by ISRO. It discusses Oceansat-1, launched in 1999, and Oceansat-2, launched in 2009. Both satellites carry instruments to monitor ocean color, wind speed, sea surface temperature, and other metrics. Oceansat-3 is planned for 2012-13 to continue these ocean observations. Data from the Oceansat satellites are used for applications like fisheries monitoring, cyclone forecasting, climate research, and assessing water quality.
This document discusses the history and modern practices of ship routing. It begins by describing early Phoenician navigation using stars and primitive charts. Modern routing uses electronic tools like radar, satellite navigation, and vessel traffic services to increase safety and efficiency. Factors like weather, currents, and traffic patterns are considered to determine optimal routes. Common software used for routing includes Netpas, QGIS, and ArcGIS, which provide forecasting, digitized weather data, and port distance tables to aid route planning. The goal of routing is to safely and economically guide ships from hazards while minimizing time and fuel costs.
GOCI provides ocean color data with high temporal resolution but limited spatial coverage focused on East Asia. The GDPS processes GOCI data to generate Level 1B radiance data and Level 2 water quality products like chlorophyll, suspended sediments, and CDOM. Validation efforts include in situ measurements from research vessels, ferries, gliders, and ocean observing stations to evaluate GOCI data quality and algorithm performance over time.
This document discusses remote sensing satellites and geo-imaging. It begins by describing different types of satellite orbits - LEO, MEO, and GEO. It then discusses remote sensing satellites and their applications in areas like agriculture, forestry, urban planning and more. Challenges in geo-imaging are also covered, such as the need for more powerful cameras to achieve high resolution from GEO orbits. Current and future Indian remote sensing satellite missions are outlined, including Cartosat-2 series, GISAT-1, a proposed first geo-imaging satellite, and future advanced geo-imaging satellites. Suggestions are made to develop advanced optical systems, detectors and sensors to meet increasing demands.
The document provides information about the HEPTA-Sat Training Program. It discusses:
- The program was developed in 2012 to contribute to capacity building in space technology through hands-on education using CubeSat models.
- It has hosted 489 workshops across 259 countries between 2017-2019, training over 4,000 participants.
- The training involves lectures, hardware assembly, integration, mission design, field testing, and presentations. It aims to provide an understanding of basic satellite systems and the development process.
This document provides an overview and outline of a textbook on management techniques for space development projects. It describes 5 major sections: 1) project management process, 2) configuration management, 3) safety management, 4) risk management, and 5) EEE parts program management. For each section, it lists key topics and concepts that will be covered, such as configuration identification and change control, hazard identification and analysis, and qualified parts lists from different space agencies. The overall aim is to improve skills in managing spacecraft development and engineering design for satellite systems.
This document provides an overview and summary of key concepts from a textbook on management programs for space development. It outlines five major sections: [1] Project Management Process, [2] Reliability Program, [3] Quality Assurance Program, [4] Contents, and [5] When You Master This Unit. The document defines management techniques and processes to ensure quality, reliability, safety controls and risk management in spacecraft development.
1) The document discusses systems engineering concepts for spacecraft development, including the system engineering (SE) process, V-chart, and phased project planning (PPP).
2) SE is defined as an interdisciplinary approach that transforms requirements into a system solution. The SE process involves requirements definition, design, integration, verification, and operation of a system.
3) PPP involves dividing a project into phases for feasibility, definition, design, manufacturing, and operation. Each phase has objectives like defining requirements or completing subsystem design.
This document provides an overview of project management processes for spacecraft development. It discusses the characteristics of projects and project management. The general project management process involves initiation, planning, development/execution, controlling, and closing phases. The planning process specifically involves developing specifications, work breakdown structures (WBS), schedules, organization charts, and financial and procurement plans.
1. Micro satellites, defined as satellites under 100kg, are becoming more widely used due to their lower cost and shorter development time compared to large satellites. They are well suited for new entrants to the space industry and developing human resources.
2. Japan has launched several micro satellites for technology demonstrations including the SDS and CubeSat series. Other notable Japanese micro satellites include WNISAT-1 for Arctic observation and Axel Globe's proposed constellation. Internationally, companies like Planet Labs and OneWeb are developing large micro satellite constellations.
3. Future visions include using large micro satellite constellations to provide global internet access and solve the digital divide issue, particularly in developing countries. Japan
Strategies for Effective Upskilling is a presentation by Chinwendu Peace in a Your Skill Boost Masterclass organisation by the Excellence Foundation for South Sudan on 08th and 09th June 2024 from 1 PM to 3 PM on each day.
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In this slide, we'll explore how to set up warehouses and locations in Odoo 17 Inventory. This will help us manage our stock effectively, track inventory levels, and streamline warehouse operations.
A workshop hosted by the South African Journal of Science aimed at postgraduate students and early career researchers with little or no experience in writing and publishing journal articles.
This slide is special for master students (MIBS & MIFB) in UUM. Also useful for readers who are interested in the topic of contemporary Islamic banking.
বাংলাদেশের অর্থনৈতিক সমীক্ষা ২০২৪ [Bangladesh Economic Review 2024 Bangla.pdf] কম্পিউটার , ট্যাব ও স্মার্ট ফোন ভার্সন সহ সম্পূর্ণ বাংলা ই-বুক বা pdf বই " সুচিপত্র ...বুকমার্ক মেনু 🔖 ও হাইপার লিংক মেনু 📝👆 যুক্ত ..
আমাদের সবার জন্য খুব খুব গুরুত্বপূর্ণ একটি বই ..বিসিএস, ব্যাংক, ইউনিভার্সিটি ভর্তি ও যে কোন প্রতিযোগিতা মূলক পরীক্ষার জন্য এর খুব ইম্পরট্যান্ট একটি বিষয় ...তাছাড়া বাংলাদেশের সাম্প্রতিক যে কোন ডাটা বা তথ্য এই বইতে পাবেন ...
তাই একজন নাগরিক হিসাবে এই তথ্য গুলো আপনার জানা প্রয়োজন ...।
বিসিএস ও ব্যাংক এর লিখিত পরীক্ষা ...+এছাড়া মাধ্যমিক ও উচ্চমাধ্যমিকের স্টুডেন্টদের জন্য অনেক কাজে আসবে ...
Leveraging Generative AI to Drive Nonprofit InnovationTechSoup
In this webinar, participants learned how to utilize Generative AI to streamline operations and elevate member engagement. Amazon Web Service experts provided a customer specific use cases and dived into low/no-code tools that are quick and easy to deploy through Amazon Web Service (AWS.)
How to Manage Your Lost Opportunities in Odoo 17 CRMCeline George
Odoo 17 CRM allows us to track why we lose sales opportunities with "Lost Reasons." This helps analyze our sales process and identify areas for improvement. Here's how to configure lost reasons in Odoo 17 CRM
【Point】
・Introduction(Solution of space technologies for problems had by countries and global problems.)
【Explanation and Other Information】
・Such as basic maps, agriculture, sea and meteorological, problems depend on countries.
・Global warming and atmospheric pollution getting worse.
・Space technologies provide solutions for these problems.
【Point】
・Compering Satellite data and Aerial photography.
【Explanation and Other Information】
・Observation by satellite has more good points than aerial photography.
・If you have your own satellite, you have a lot of merit that could not get by airplane observing.
【Point】
・Space technology for society
【Explanation and Other Information】
・Forest
・Sea
・Vessel
・Traffic
・Agriculture
・Meteorological and Climate Change
・National land management
【Point】
・About the benefits of introducing space technology.
【Explanation and Other Information】
・Illegal logging for the purpose of pasture and farmland ensure had been serious in Amazon.
・It is impossible to place observers in the Amazon throughout. (Because the area is 15 times that of Japanese land area.)
・Early detection of illegal logging by utilizing the data of the Earth observation satellite.
・Because Amazon has a lot of cloud, monitoring during rainy season is difficult only optical sensor.
・Radar enabled monitoring all year round.
【Pint】
・About the benefits of introducing space technology.
【Explanation and Other Information】
・Water temperature and color (Chlorophyll concentration) are deeply involved with the fishing grounds.
・It has been difficult so far to capture the waters a wide range of situations areal.
・Utilizing satellite observation data by NOAA of US and GCOM-W of Japan.
・Getting data such as water temperature in a quasi-real-time.
・Available satellite data only equipped with a PC terminal to each fishing boat.
・Selection fishing grounds efficiently.
【Pint】
・About the benefits of introducing space technology.
【Explanation and Other Information】
・AIS(Automatic Identification System):Ships Automatic Identification System
Communication system for the purpose of improving safety of ships sailing.
・By sending ships name and position by VHF and receiving the information of the other ships, avoid a collision.
・Conventional AIS has been limited in coastal areas because needed communicate with ships through AIS coastal stations.
・Utilizing communication satellites enable using AIS in Offing area.
・Method of identifying ships that not equip AIS transponders by satellite image is being researched now.
【Pint】
・About the benefits of introducing space technology.
【Explanation and Other Information】
・ITS(Intelligent Transport Systems):Fast road information system
Traffic information providing system that consists of Car navigation system, VICS, ETC.
Car navigation system : Positioning information of cars.
VICS : Collection / Delivery traffic regulation, accident and traffic jam information, etc.
ETC : Automatic payment.
・On ITS, car navigation system utilizing positioning satellite is the core role.
・By building an advanced transportation system, we can reducing traffic congestion, exhaust emissions, and realize the transportation costs down.
【Pint】
・About the benefits of introducing space technology.
【Explanation and Other Information】
・Only GPS, position accuracy is a few meters order. (accuracy controlled by USA.)
・Equipped with a receiving device of the GPS reinforcement signal to the agricultural machinery.
・Realizing centimeter order positioning accuracy.
・Running on a pre-programmed course automatically.
・In the future, cost down is expected.
【Pint】
・About the benefits of introducing space technology.
【Explanation and Other Information】
・Agriculture using earth observation satellite data is practical used.
・Conventionally, administrating farm products condition, fertilization, harvest time had been carried out by only human.
・There are matter of manpower shortage and lack of objective data.
・By utilizing satellite data, ensure a broad-area and objectivity.
・It is particularly effective in huge farming.
【Pint】
・About the benefits of introducing space technology.
【Explanation and Other Information】
・Provide precipitation rainfall map covered globe (60S~60N)
・Update Quasi-real-time data after observation for four hours every hour.
・Including Japan of GPM and GCOM-W, using the satellites of each nation. (Satellite constellation)
・It can also be used in developing countries that not having meteorological satellite. (By user Registration)
・It helps planning of pre-response plan against disaster such as strong typhoon.
・it provides data at 30-minute intervals for Asia and Oceania which is the observation area of the Japanese geostationary meteorological satellite "Himawari".
【Pint】
・About the benefits of introducing space technology.
【Explanation and Other Information】
・Global earth observation system(GEOSS) build by Intergovernmental Group on Earth Observation (GEO).
・Japan focuses on “disaster” “global warming” “climate change” in GEOSS.
・Observe global distribution of greenhouse gases by “GOSAT”.
・Observe on the sea, that is difficult observation by ground observation.
・Observe cloud and aerosol by GCOM-C and EarthCARE.
・Observe water circulation and precipitation by GCOM-W and GPM
・Elucidate climate change cycle by various satellite consternation.
【Pint】
・About the benefits of introducing space technology.
【Explanation and Other Information】
・On developing countries, upgrading map is important for land administration.
・Field survey to create and update map needs a lot of effort.
・Improving work efficiency by using satellite images as a manuscripts for field survey.
・Because orbiting satellite has periodicity, it is effective in the regular map updates.
【Explanation and Other Information】
You can use the Earth observation data in administration forest, fishery support information, global rainfall information, creation and updating maps.
By new technology innovation than ever before such as automatic operation of agriculture machines utilizing positioning satellite, it is expected improving the life of people dramatically.
By combing satellite remote sensing technology and ships monitoring technology by satellite AIS, sea security can be strong dramatically.
By using earth satellite, global warming and global climate change can be assessed quantitatively and objectively, and fulfill responsibilities in international society.
Japan has know-how about social applications of space technology such as forest and sea monitoring, upgrading traffic infrastructure.
So we can offer the solutions to solve your problem.