PLANET OBSERVATION ENTERPRISE
Geospatial data is a broader term, typically used to include any data that is explicitly associated to a specific location, such as cadastral data or administrative boundaries. There is a wealth of information to gain by combining high- and inherit-resolution datasets from earth observation, with geo-referenced administrative or census data. For example, the datasets can be used to quantify and identify patterns of agricultural land use, urbanisation or forest change to form land-use policies on ecosystems and project local economies.
Earth observation (EO) satellites facilitate resource management, environmental monitoring and protection, humanitarian assistance, and sustainable development. Also, this includes satellites used for meteorology, cartography, and other purposes. These sensors assess air quality, agricultural health, ice thickness, salinity, and other factors.
One of the major factors promoting the expansion of the satellite-based earth observation practises worldwide is the increasing use of satellites for environmental monitoring. Observing and tracking GHG emissions, deforestation, polar ice changes, wildfires, and coral bleaching are just a few of the uses for satellite-based earth observation applications. Superior observation satellites for environmental monitoring have been developed due to recent advances in sensing and imaging technologies. These satellites deliver photos with a better resolution and enable the measurement of many indicators.
The areas of expertise and experience using the earth borne satellites are vital source for modern era. With the innovation of Artificial Intelligence, applications of satellite data have sky rocketed.
PREFACE
Any parameter related to time and space of the planet has not been remained untouched. From biological cover to lithological cover to hydrological cover to atmospheric cover to environmental cover, all aspects have been studied, analysed, forecasted and put into proper prospective by judicial use of remotely sensed data.
Earth Observation(EO) refers to the use of remote sensing technologies to monitor land, marine (seas, rivers, lakes) and atmosphere. Satellite-based EO relies on the use of satellite-mounted payloads to gather imaging data about the Earth’s characteristics. The images are then processed and analysed in order to extract different types of information that can serve a very wide range of applications for the large sections of common people, companies and industries.
EO technologies utilize different types of sensors on their payloads:
Optical or thermal sensors are payloads monitoring the energy received from the Earth due to the reflection and re-emission of the Sun’s energy by the Earth’s surface or atmosphere. They operate between the visible and infrared wavelengths of the electromagnetic spectrum.
Radar sensors are payloads operating in the lower part of the spectrum (longer wavelengths). Most of these sensors send energy to Earth and monitor the energy received back from the Earth’s surface or atmosphere, enabling day and night monitoring during all weather conditions.
Following is an account of various Sectors of Services that we do detailed studies and bring out comprehensive, understandable and practical solutions for our clients.
OUR MISSION
- To capture the far distance terrain morphology and interpretation.
- To assists in developing many modern and emerging economies robust policies and then evaluating their effects compared with the cost benefits.
- To substantially benefit the economic development and to support policy and decision making process.
- To collect information on chemical, physical, and biological aspects of the earth.
- To provide real time near accurate information to improve the revenue generation of agricultural products.
- Precision farming combining with GPS technology to enable farmers to apply fertiliser more efficiently.
- To manage forest resources and sustainability.
- Surveying, evaluating and monitoring air quality, agricultural health, ice thickness, salinity, polar ice changes, wildfires, and coral bleaching.
- To provide the end users the best of understanding of Urban Development and Cultural Heritage, Agriculture, Climate changes, Energy and Raw Materials, Infrastructure etc.
- To facilitate the resource management, environmental monitoring and protection, humanitarian assistance, and sustainable development.
- To create understanding of the landscape and the identification, mapping, and analysis of environmental conditions.
- To explore natural resources for the benefit of the society.
- To manage disaster – preparedness, mitigation.
OUR VISION
- To establish the relation between geographical distribution of environmental phenomena and economic activity to devise the efficient environmental policy.
- To provide unique and real time data series that is commensurable across countries, regions and cities, using satellites, drones, in-situ monitoring etc.
- To harmonise national scenario on natural resources, ecosystems and environmental sinks.
- To explore natural resources like, minerals, rocks, underground water, land and soil for societal benefit keeping sustainable balance resources and environment.
- To measure the consequences of people’s exposure to natural and man-made calamities like drought, flood, cyclones, earthquakes, land degradation, soil and water pollution, air pollution as well as water logging and their effects on population density at finer scales such as level of urban areas.
- To analyse the impact of urban structure on the environment and on land bearing capacity through effective landuse planning as well as the potential gains from policy reforms. And to assess the impacts of land use policies, and better understand local, regional and global patterns of urbanisation.
- To enable the widespread use of this information at scale, and beyond the specialised scientific community.
- To improve information in two areas of particular importance such as i. monitoring natural resources such as land, soils and oceans and environmental sinks and ii. air and water pollution, water quality, soil carbon and soil moisture.
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