India to launch 100th satellite into orbit today: All you should know on Business Standard. The Cartosat-2 series satellite launch is a follow-on mission with the primary objective of providing high-resolution, scene-specific spot imagery

India to launch 100th satellite into orbit today: All you should know

Union Finance Minister Arun Jaitley is good to go to display Budget 2018 on February 1. While Budget desires and Budget list of things to get have begun originating from all quarters and areas, what the back priest will report in his Budget discourse is known just to a chosen few individuals from the Budget-production group of the fund service.

There is a view that Jaitley would convey a populist Budget this time, given that it is the last full Budget of the Narendra Modi-drove focal government in its present term. In any case, this has been a monetarily troublesome year for the administration, and reasonable financial aspects would not enable him to give complimentary gifts.

There have been reports that Jaitley may considerably consider expanding the individual salary assess exception farthest point to profit the working class salaried individuals, who have been affected of late by rising retail inflaion.

Business Standard investigates the past Budgets and the key features that took the middle stage and turned into an argument.

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Planetary Resources' Arkyd-6 ready for launch

Planetary Resources’ Arkyd-6 ready for launch

An artist’s rendering of the Arkyd-6, a Planetary Resources asteroid miner prototype CubeSat. The small vehicle will test key technologies that will enable it to prospect for asteroids. Image Credit: Planetary Resources

After years of development, the Planetary Resources-built Arkyd-6 is finally on the last leg of its journey into space. It is scheduled to be launched as a secondary payload atop…

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First ICEYE-X1 Radar Image from Space Published

Helsinki, Finland (SPX) Jan 19, 2018 ICEYE has published the first radar image obtained with the ICEYE-X1 SAR satellite. The image depicts Noatak National Preserve, Alaska, on Monday Jan. 15, at 21:47 UTC. ICEYE-X1 is the world's first SAR satellite under 100 kg, launched less than a week ago on Jan. 12, 2018 on ISRO's PSLV-C40 from Satish Dhawan Space Center in India. A synthetic-aperture radar (SAR) instrument sends its own Full article

How Indian small satellite industry gets commercialized?

How new commercial arms exploit technology

The Indian Space Research Organization (ISRO) supported India’s place in the global satellite industry by placing 104 satellites in the Earth’s’ orbit, in just a single launch. This is a record number of satellites that launch simultaneously breaking the record of 37 satellites by Russia in 2014.

ISRO has marked the 100th launch in the sky with the Polar Satellite Launch Vehicle (PSLV) C40 rocket in India. Moreover, they have planned 32 launch missions in the coming year. The Indian space agency continues to mesmerize the world with its achievements in the global space industry.

These and related developments take the Indian space market into a new space. It is referred to as the commercialization of the space industry driven by technological innovations and business opportunities. They have taken great initiatives in the previous year’s including Space Activities Bill, Make in India, Start-up-India, and the public-private collaborative approach of ISRO. All of them have helped the Indian space industry move towards commercialization.

Government Policies introduced to overcome commercialization

Apart from government policies and support, the commercialization runs by reducing satellite costs and rocket development costs. However, it is a result of ongoing technological advancements in the manufacturing process, material characteristics, and miniaturization in electric and electronic components. This results in reduced operating costs and optimizes the Return on Investment (ROI).

These factors are applicable to emerging companies that aim to capitalize on space utilization and uncover new opportunities. Currently, this new wave of companies is indicating small satellite industry to cater to wide applications like communication, remote sensing, and technological demonstration.

How applications create an impact on satellite market

Escalating demands for these applications in India is giving a boost to the small satellite industry, especially for start-ups. Exseed Space and Astrome Technologies are the most notable Indian start-ups in small satellite development. Exseed Space founds in May 2017 and Astrome Technologies founds in 2015. The satellite constellation by Astrome Technologies will provide high-speed internet with 100 gigabytes per second capacity, with their patented millimeter (MM) wave technology.

Moreover, commercial companies are also emerging in component manufacturing for small satellites. For instance, Bellatrix Aerospace is a start-up founded in 2016. The company is focusing on the development of advanced electric propulsion thrusters that can be used in small satellites. Additionally, Exseed Space is looking at developing small satellite platforms that primarily focus on assembly, integration, testing, and operation of satellites.

A paradigm shift in rising small satellite

The constant shift in rising satellite mega-constellations creates an opportunity for the companies in the satellite launch service business. For instance, Bellatrix Aerospace currently involves in the development of the electric propulsion system. It aims to develop orbital launch vehicles for satellites. Also, ANTRIX Corporation, a commercial arm of ISRO already develops the Small Satellite Launch Vehicle (SSLV) dedicates to launching satellites weighing up to 700 Kilograms (kg).

Growth opportunities for entrepreneurs

The Indian space industry offers different opportunities to present-day young entrepreneurs. In order to retain the movement, the government and private investors need to play a critical role. For instance, the ISRO move toward innovative pursuits by setting up business incubators.

However, a holistic approach boosted by favorable government policies encourages Foreign Direct Investment (FDI) that develops the confidence of investors requiring technological innovations. These initiatives will carry the capacity-building process forward in the Indian space market, and help to gain international opportunities for startups.

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Planetary Resources’ prototype #asteroid prospector set for January liftoff in #India

New Post has been published on https://takenews.net/planetary-resources-prototype-asteroid-prospector-set-for-january-liftoff-in-india/

Planetary Resources’ prototype #asteroid prospector set for January liftoff in #India

India’s Polar Satellite tv for pc Launch Car lifts off on a February house mission.

Redmond, Wash.-based Planetary Sources’ expertise demonstrator satellite tv for pc for asteroid prospecting is due for launch in early January, together with greater than two dozen different satellites, aboard India’s Polar Satellite tv for pc Launch Car.

The newest phrase on the schedule for the PSLV-C40 mission got here at present from Seattle-based Spaceflight, which is offering launch and mission providers for Planetary Sources’ Arkyd-6 and 10 different satellites.

Arkyd-6 is simply concerning the dimension of an inkjet printer, but it surely’s designed to seize pictures in midwave infrared wavelengths and ship them again to Earth. The imaging expertise is destined for use in future generations of Planetary Sources’ asteroid-surveying spacecraft.

PSLV-C40 would be the first mission to raise off from India’s Satish Dhawan Area Heart since a PSLV mission failed in August. The first payload is a Cartosat-2 imaging satellite tv for pc, however plenty of secondary payloads shall be getting a piggyback journey to polar orbit.

Spaceflight’s lineup contains Arkyd-6 in addition to Finland’s ICEYE-X1 radar-imaging satellite tv for pc, 4 Spire World Lemur-2 Earth commentary satellites, Astro Digital’s Landmapper-BC3 imaging satellite tv for pc, AMSAT’s Fox-1D amateur-radio analysis satellite tv for pc, plus others.

Spaceflight is a service providing of Spaceflight Industries, which additionally has an orbital imaging subsidiary referred to as BlackSky below its wing.

“PSLV-C40 is an ideal instance of how our versatile, full-service rideshare mannequin is enabling new industrial house companies to exist whereas increasing into new markets,” Spaceflight President Curt Blake stated in a information launch. “This mission brings new clients from outdoors the trade into house whereas persevering with partnerships with current clients for his or her ongoing satellite tv for pc constellations.”

However wait … there’s extra: PSLV-C40’s manifest additionally lists 4 Planet Dove imaging satellites, Telesat’s LEO-1, SSTL’s Carbonite-2 video-transmitting satellite tv for pc and NovaSAR-S radar satellite tv for pc, a satellite tv for pc for Kepler Communications, France’s PicSat house telescope, six South Korean mini-satellites and extra ride-alongs.

New Post has been published on http://newsreaders.in/mission-gaganyaan-will-be-flying-in-december-2021-isro/

Gaganyaan Mission will be flying over with Indians In Dec 2021: ISRO Chief

New Delhi/Bengaluru : Indian space for the first time from the ISRO Satellite in 2021 This was announced by Sivan, chairman of ISRO today. The Indian Space Research Organization (ISRO) counted the achievements of the past year, giving a lot of special talks about the goals of 2019 and the preparations of its much anticipated ambitious Gaganyaan Mission.

Under this mission, a three-member crew will be on the journey of space for at least 7 days. Before its final launch, two unmanned missions will also be sent in space.

The Modi government had approved the ambitious plan of Rs 10 thousand crore last year. ISRO’s biggest priority is Gaganyaan, December 2020 has been fixed for the first deadline for the mission mission, July 2021 has been fixed for the second deadline mission mission.

The date for December 2021 for the first humanitarian mission has been fixed. India will be the fourth country in the world to send human missions on space. Training for Gaganyaan will be in India and advanced training can be done in Russia. With this, women’s astronauts will also be part of the team.

High technology needed for human mission in space has been developed. Under this, the astronauts will be in space for 7 days.

Sivan of ISRO chief also counted the achievements of 2018 Last year 31 satellites launched with 28 foreign satellites through Polar Satellite Launch Vehicle (PSLV-C40) and they were successfully installed in the classroom.

Sharing the achievements of ISRO’s 2018, Sivan said, this year has been quite busy with the launch of many rockets and satellites. The biggest achievement was the announcement of Gaganayan by Prime Minister Narendra Modi.

This is a major announcement. He said, the GSAT-20, GSAT-29 satellites will be launched this year, this satellite coming up to September, October will boost high speed connectivity.

Digital India will get help in fulfilling the dream. ISRO has 32 missions planning this year. Work has been done on Gaganayan Mission for the last four months. Work on the training of the crew has been started. The crew member will be elected jointly by ISRO and IAF.

After this, they will be given training for 2 to 3 years. We will establish 6 incubation and research centers across the country. We will bring Indian students to ISRO Why do Indian students need to go to NASA?

Read more : News Readers

FCC fines Swarm Technologies $900K over unauthorized satellite launch

Back in March came the surprising news that a satellite communications company still more or less in stealth mode had launched several tiny craft into orbit — against the explicit instructions of the FCC. The company, Swarm Technologies, now faces a $900,000 penalty from the agency, as well as extra oversight of its continuing operations.

Swarm’s SpaceBEEs are the beginning of a planned constellation of small satellites with which the company intends to provide low-cost global connectivity.

Unfortunately, the units are so small — about a quarter the size of a standard cubesat, which is already quite tiny — that the FCC felt they would be too difficult to track, and did not approve the launch.

SpaceBEEs are small, as you can see. Credit: Swarm Technologies

Swarm, perhaps thinking it better to ask forgiveness than file the paperwork for permission, launched anyway in January aboard India’s PSLV-C40, which carried more than a dozen other passengers to space as well. (I asked Swarm and the launch provider, Spaceflight, at the time for comment but never heard back.)

The FCC obviously didn’t like this, and began an investigation shortly afterwards. According to an FCC press release:

The investigation found that Swarm had launched the four BEEs using an unaffiliated launch company in India and had unlawfully transmitted signals between earth stations in Georgia and the satellites for over a week. In addition, during the course of its investigation, the FCC discovered that Swarm had also performed unauthorized weather balloon-to-ground station tests and other unauthorized equipment tests prior to the small satellites launch. All these activities require FCC authorization and the company had not received such authorization before the activities occurred.

Not good! As penance, Swarm Technologies will have to pay the aforementioned $900,000, and now has to submit pre-launch reports to the FCC within five days of signing an agreement to launch, and at least 45 days before takeoff.

The company hasn’t been sitting on its hands this whole time. The unauthorized launch was a mistake to be sure, but it has continued its pursuit of a global constellation and launched three more SpaceBEEs into orbit just a few weeks ago aboard a SpaceX Falcon 9.

Swarm has worked to put the concerns about tracking to bed; in fact, the company claims its devices are more trackable than ordinary cubesats, with a larger radar cross section and extra reflectivity thanks to a Van Atta array (ask them). SpaceBEE-1 is about to pass over Italy as I write this — you can check its location live here.

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FCC fines Swarm Technologies $900K over unauthorized satellite launch

Back in March came the surprising news that a satellite communications company still more or less in stealth mode had launched several tiny craft into orbit — against the explicit instructions of the FCC. The company, Swarm Technologies, now faces a $900,000 penalty from the agency, as well as extra oversight of its continuing operations.

Swarm’s SpaceBEEs are the beginning of a planned constellation of small satellites with which the company intends to provide low-cost global connectivity.

Unfortunately, the units are so small — about a quarter the size of a standard cubesat, which is already quite tiny — that the FCC felt they would be too difficult to track, and did not approve the launch.

SpaceBEEs are small, as you can see. Credit: Swarm Technologies

Swarm, perhaps thinking it better to ask forgiveness than file the paperwork for permission, launched anyway in January aboard India’s PSLV-C40, which carried more than a dozen other passengers to space as well. (I asked Swarm and the launch provider, Spaceflight, at the time for comment but never heard back.)

The FCC obviously didn’t like this, and began an investigation shortly afterwards. According to an FCC press release:

The investigation found that Swarm had launched the four BEEs using an unaffiliated launch company in India and had unlawfully transmitted signals between earth stations in Georgia and the satellites for over a week. In addition, during the course of its investigation, the FCC discovered that Swarm had also performed unauthorized weather balloon-to-ground station tests and other unauthorized equipment tests prior to the small satellites launch. All these activities require FCC authorization and the company had not received such authorization before the activities occurred.

Not good! As penance, Swarm Technologies will have to pay the aforementioned $900,000, and now has to submit pre-launch reports to the FCC within five days of signing an agreement to launch, and at least 45 days before takeoff.

The company hasn’t been sitting on its hands this whole time. The unauthorized launch was a mistake to be sure, but it has continued its pursuit of a global constellation and launched three more SpaceBEEs into orbit just a few weeks ago aboard a SpaceX Falcon 9.

Swarm has worked to put the concerns about tracking to bed; in fact, the company claims its devices are more trackable than ordinary cubesats, with a larger radar cross section and extra reflectivity thanks to a Van Atta array (ask them). SpaceBEE-1 is about to pass over Italy as I write this — you can check its location live here.

from RSSMix.com Mix ID 8176395 https://techcrunch.com/2018/12/20/fcc-fines-swarm-technologies-900k-over-unauthorized-satellite-launch/ via http://www.kindlecompared.com/kindle-comparison/

FCC fines Swarm Technologies $900K over unauthorized satellite launch

Back in March came the surprising news that a satellite communications company still more or less in stealth mode had launched several tiny craft into orbit — against the explicit instructions of the FCC. The company, Swarm Technologies, now faces a $900,000 penalty from the agency as well as extra oversight of its continuing operations.

Swarm’s SpaceBEEs are the beginning of a planned constellation of small satellites with which the company intends to provide low-cost global connectivity.

Unfortunately, the units are so small — about a quarter the size of a standard cubesat, which is already quite tiny — that the FCC felt they would be too difficult to track, and did not approve the launch.

SpaceBEEs are small, as you can see. Credit: Swarm Technologies

Swarm, perhaps thinking it better to ask forgiveness than file the paperwork for permission, launched anyway in January aboard India’s PSLV-C40, which carried more than a dozen other passengers to space as well. (I asked Swarm and the launch provider, Spaceflight, at the time for comment but never heard back.)

The FCC obviously didn’t like this, and began an investigation shortly afterwards. According to an FCC press release:

The investigation found that Swarm had launched the four BEEs using an unaffiliated launch company in India and had unlawfully transmitted signals between earth stations in Georgia and the satellites for over a week. In addition, during the course of its investigation, the FCC discovered that Swarm had also performed unauthorized weather balloon-to-ground station tests and other unauthorized equipment tests prior to the small satellites launch. All these activities require FCC authorization and the company had not received such authorization before the activities occurred.

Not good! As penance, Swarm Technologies will have to pay the aforementioned $900,000, and now has to submit pre-launch reports to the FCC within 5 days of signing an agreement to launch, and at least 45 days before takeoff.

The company hasn’t been sitting on its hands this whole time. The unauthorized launch was a mistake to be sure, but it has continued its pursuit of a global constellation and launched three more SpaceBEEs into orbit just a few weeks ago aboard a SpaceX Falcon 9.

Swarm has worked to put the concerns about tracking to bed; in fact, the company claims its devices are more trackable than ordinary cubesats, with a larger radar cross section and extra reflectivity thanks to a Van Atta array (ask them). SpaceBEE-1 is about to pass over Italy as I write this — you can check its location live here.

Tamil News -Isro launches 100th satellite, successfully places Cartosat-2 into the orbit – Maalaimalar.com

Bouncing back strongly from its recent failure, the Indian Space Research Organisation (ISRO) on Friday successfully launched the Polar Satellite Launch Vehicle (PSLV-C40) from Satish Dhawan Space Centre (SDSC) in Sriharikota.The PSLV -C40 successfully placed Cartosat-2 series satellite into sun synchronous orbit, Isro said. “ISRO is starting 2018 with the successful launch of our Cartosat small satellite, nanosat and microsat and 28 customer satellites,” A.S.Kiran Kumar, Isro’s chairman said to loud applause within the command centre.The success of Friday’s launch comes about four months after Isro’s PSLV-C39 failed following a technical snag involving the heat shield. “The last launch on the PSLV, whatever heat shield problems we had faced, the committees went through rigorously and then found corrective measures that were required to make the system more robust and today what has happened vindicates that the problem is properly understood and rectified and we are extremely happy to provide a new year gift to the country with Cartosat series,” Kumar said. The 710 kg Cartosat-2 series satellite for earth observation and 30 co-passenger satellites together weighing about 613 kg at lift-off.The co-passenger satellites comprise one Microsatellite and one Nanosatellite from India as well as 3 Microsatellites and 25 Nanosatellites from six countries, namely, Canada, Finland, France, Republic of Korea, UK and USA. The total weight of all the 31 satellites carried onboard PSLV-C40 is about 1323 kg, according to information provided by ISRO.

http://www.maalaimalar.com/News/TopNews/2018/01/12104447/1139820/Cartosat-2-and-30-satellites-placed-in-orbit-by-ISRO.vpf For More Visit:- http://www.maalaimalar.com/

What an inspiring morning for all Indians. Take a bow #ISRO ,congrats for launching 100th satellite. PSLV-C40 carried CartoSat-2s satellite along with satellites from #US , #France , #UK , #SouthKorea , #Canada & #Finland . In 43 years, #India has launched 100 satellites, #Aryabhatta being first in 1975. #Cartosat-2 series from Satish Dhawan Space Centre at #Sriharikota. #PSLVC40 #PSLV @pmoindia #Satellite #space #universe #rocket #rocketscience

Back in March came the surprising news that a satellite communications company still more or less in stealth mode had launched several tiny craft into orbit — against the explicit instructions of the FCC. The company, Swarm Technologies, now faces a $900,000 penalty from the agency, as well as extra oversight of its continuing operations.

Swarm’s SpaceBEEs are the beginning of a planned constellation of small satellites with which the company intends to provide low-cost global connectivity.

Unfortunately, the units are so small — about a quarter the size of a standard cubesat, which is already quite tiny — that the FCC felt they would be too difficult to track, and did not approve the launch.

SpaceBEEs are small, as you can see. Credit: Swarm Technologies

Swarm, perhaps thinking it better to ask forgiveness than file the paperwork for permission, launched anyway in January aboard India’s PSLV-C40, which carried more than a dozen other passengers to space as well. (I asked Swarm and the launch provider, Spaceflight, at the time for comment but never heard back.)

The FCC obviously didn’t like this, and began an investigation shortly afterwards. According to an FCC press release:

The investigation found that Swarm had launched the four BEEs using an unaffiliated launch company in India and had unlawfully transmitted signals between earth stations in Georgia and the satellites for over a week. In addition, during the course of its investigation, the FCC discovered that Swarm had also performed unauthorized weather balloon-to-ground station tests and other unauthorized equipment tests prior to the small satellites launch. All these activities require FCC authorization and the company had not received such authorization before the activities occurred.

Not good! As penance, Swarm Technologies will have to pay the aforementioned $900,000, and now has to submit pre-launch reports to the FCC within five days of signing an agreement to launch, and at least 45 days before takeoff.

The company hasn’t been sitting on its hands this whole time. The unauthorized launch was a mistake to be sure, but it has continued its pursuit of a global constellation and launched three more SpaceBEEs into orbit just a few weeks ago aboard a SpaceX Falcon 9.

Swarm has worked to put the concerns about tracking to bed; in fact, the company claims its devices are more trackable than ordinary cubesats, with a larger radar cross section and extra reflectivity thanks to a Van Atta array (ask them). SpaceBEE-1 is about to pass over Italy as I write this — you can check its location live here.

via TechCrunch

PSLV-C40/Cartosat-2 Series Satellite Mission Success

ISRO - PSLV-C40 Mission patch. January 12, 2018

PSLV-C40 carrying Cartosat-2 launch

India's Polar Satellite Launch Vehicle, in its forty second flight (PSLV-C40), successfully launched the 710 kg Cartosat-2 Series Satellite for earth observation and 30 co-passenger satellites together weighing about 613 kg at lift-off. PSLV-C40 was launched from the First Launch Pad (FLP) of Satish Dhawan Space Centre (SDSC) SHAR, Sriharikota. The co-passenger satellites comprise one Microsatellite and one Nanosatellite from India as well as 3 Microsatellites and 25 Nanosatellites from six countries, namely, Canada, Finland, France, Republic of Korea, UK and USA. The total weight of all the 31 satellites carried onboard PSLV-C40 is about 1323 kg.

PSLV-C40 launches Cartosat-2F

The 28 International customer satellites were launched as part of the commercial arrangements between Antrix Corporation Limited (Antrix), a Government of India company under Department of Space (DOS), the commercial arm of ISRO and the International customers.

Cartosat-2 Series Satellite

PSLV-C40/Cartosat-2 Series Satellite Mission was launched on Friday, Jan 12, 2018 at 09:29 Hrs (IST). ISRO Press Release: https://www.isro.gov.in/launcher/pslv-c40-cartosat-2-series-satellite-mission Images, Video, Text, Credits: ISRO/SciNews/Günter Space Page. Greetings, Orbiter.ch Full article

FCC fines Swarm Technologies $900K over unauthorized satellite launch

Back in March came the surprising news that a satellite communications company still more or less in stealth mode had launched several tiny craft into orbit — against the explicit instructions of the FCC. The company, Swarm Technologies, now faces a $900,000 penalty from the agency as well as extra oversight of its continuing operations.

Swarm’s SpaceBEEs are the beginning of a planned constellation of small satellites with which the company intends to provide low-cost global connectivity.

Unfortunately, the units are so small — about a quarter the size of a standard cubesat, which is already quite tiny — that the FCC felt they would be too difficult to track, and did not approve the launch.

SpaceBEEs are small, as you can see. Credit: Swarm Technologies

Swarm, perhaps thinking it better to ask forgiveness than file the paperwork for permission, launched anyway in January aboard India’s PSLV-C40, which carried more than a dozen other passengers to space as well. (I asked Swarm and the launch provider, Spaceflight, at the time for comment but never heard back.)

The FCC obviously didn’t like this, and began an investigation shortly afterwards. According to an FCC press release:

The investigation found that Swarm had launched the four BEEs using an unaffiliated launch company in India and had unlawfully transmitted signals between earth stations in Georgia and the satellites for over a week. In addition, during the course of its investigation, the FCC discovered that Swarm had also performed unauthorized weather balloon-to-ground station tests and other unauthorized equipment tests prior to the small satellites launch. All these activities require FCC authorization and the company had not received such authorization before the activities occurred.

Not good! As penance, Swarm Technologies will have to pay the aforementioned $900,000, and now has to submit pre-launch reports to the FCC within 5 days of signing an agreement to launch, and at least 45 days before takeoff.

The company hasn’t been sitting on its hands this whole time. The unauthorized launch was a mistake to be sure, but it has continued its pursuit of a global constellation and launched three more SpaceBEEs into orbit just a few weeks ago aboard a SpaceX Falcon 9.

Swarm has worked to put the concerns about tracking to bed; in fact, the company claims its devices are more trackable than ordinary cubesats, with a larger radar cross section and extra reflectivity thanks to a Van Atta array (ask them). SpaceBEE-1 is about to pass over Italy as I write this — you can check its location live here.

Via Devin Coldewey https://techcrunch.com

Remote Sensing Satellite Market Prognosticated To Accrue With a Whooping CAGR by 2021

Remote Sensing Satellite Market – Overview:

The remote sensing satellite market is developing at an incremental pace. Market Research Future, a firm which specializes in market reports related to the Aerospace sector among others, published in its recent report on Remote Sensing Satellite Market Research Report – Global Forecast 2016-2021, that the sector is expected to grow at a CAGR of 5% owing to the increasing level of investments in the forecast period.

Due to the ability of remote sensing satellites to aggregate data following its monitoring, observing activities for large expanses of geographical areas, it has become widely popular. Its diverse uses in the fields of agriculture to detect the soil moisture content is instrumental for forecasting crop growth cycles which have increased the scope and thereby  the demand as well from this sector. The sector also draws its demand from emergency rescue operators, biologists, surveillance agencies and navigation experts etc. to name a few. It is has also discovered positive demand trends from the defense sector due to its innumerable advantages. The pressure points for market growth of this sector are the technological complexities of sensors used in these satellites.

Request a Sample Report @ https://www.marketresearchfuture.com/sample_request/1659

Remote Sensing Satellite Market - Competitive Analysis

With the entry of new industry players in the remote sensing satellite segment, a trend of solid, volume-driven growth has been observed in the market with the addition of new and advanced products. Companies are aiming to capture & solidify their share of the market segment, by competing and experimenting with various advantage points. The best long-term growth opportunities for this sector can be captured by ensuring ongoing process improvements and financial flexibility to invest in the optimal strategies.

Some of the key players in the global remote sensing satellite market are Airbus Defence and Space, Ball Aerospace, Lockheed Martin, Mitsubishi Electric, Thales Alenia Space, Boeing, CASC, ISS Reshetnev, Orbital ATK, and Telespazio.

Latest Industry News:

Dec 2017 China recently successfully launched remote sensing satellites to conduct electromagnetic environmental probes. It was the 260th mission of the Long March rocket family. The satellites were launched on a Long March-2C carrier rocket from Xichang Satellite launch center in the southwest Sichuan province. The launch is part of the third batch of the Yaogan-30 project, which will conduct electromagnetic environmental surveys among other experiments, further boosting the country's competitiveness in space science.

Dec 2017 China will make more efforts in space remote sensing development in 2018 and prepare for the launch of Gaofen-7 high-resolution remote sensing satellite. The goal of the Gaofen series is to provide all-weather, 24-hour services covering the entire globe. China will also promote the research and development of Ziyuan III 03 and 04 satellites in the New Year. Citing a national plan on civil space infrastructure (2015-2025), scientists said that seven cartographic satellites including Gaofen-7 will be used in updating maps, resource investigation, urban and rural planning, environmental protection and early warning of disasters. China will improve its ability to deal with emergencies through surveying and mapping in three years, according to the NASMG. In 2018, the NASMG will conduct basic, specific and city geo information survey and issue an annual report.

Dec 2017 Indian space agency, ISRO will launch its latest remote sensing satellite of the Cartosat-2 series, along with 28 foreign satellites in the first week of January. The launch of Cartosat-2 by the PSLV C40 rocket is a follow-on mission of the Cartosat-2 series with the primary objective of providing high-resolution scene-specific spot imageries. The satellite, which carries panchromatic and multi-spectral cameras, is capable of delivering high-resolution data. The series of satellite launches scheduled next year is in line with the space agency’s aim to double the number of launches from eight to 10 to 18-20 annually.

Get a Complete Report @ https://www.marketresearchfuture.com/reports/remote-sensing-satellite-market-1659

Remote Sensing Satellite Market – Segments

The remote sensing satellite market has been segmented on the basis of system and region.

On The Basis Of System: SATCOM, Radar, Electro Optic and Infrared

On The Basis Of Region: Asia Pacific, Europe, North America, Latin America and the Middle East & Africa.

Remote Sensing Satellite Market - Regional Analysis

The remote sensing satellite market is segmented into North America, Europe, APAC, and Rest of the World (RoW). As per the MRFR analysis, the EMEA region will continue its dominance in the forecast period to achieve billion dollar growth, to grow at a CAGR of around 5%. Whereas, APAC will grow at a CAGR of 7% respectively during the forecast period.