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(Top) 1 Background 2 Etymology 3 Development 4 Instruments 5 Launch and mission 5.1 Launch from Cape Canaveral 5.2 Deployment into orbit from the ISS 5.3 Operation 6 Impact 7 See also 8 References

Diwata-1

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Diwata-1 (PHL-Microsat-1)

Diwata-1

Mission type

Earth Observation

Operator

DOST (through PEDRO)
Tohoku University (through CRESST)

COSPAR ID

1998-067HT

SATCAT no.

41463

Website

http://phl-microsat.upd.edu.ph/

Spacecraft properties

Manufacturer

DOST
University of the Philippines
Hokkaido University
Tohoku University

BOL mass

50 kg (110 lb)

Dimensions

55 x 35 x 55 cm

Start of mission

Launch date

03:05:48, March 23, 2016 (UTC) (2016-03-23T03:05:48Z)^[2]

Rocket

Atlas V 401

Launch site

Cape Canaveral SLC-41

Contractor

United Launch Alliance

Deployed from

ISS

Deployment date

11:45:00, April 27, 2016 (UTC) (2016-04-27T11:45:00Z)^[3]

Entered service

22:33:00, April 27, 2016 (UTC) (2016-04-27T22:33:00Z)^[1]

End of mission

Disposal

Decommissioned; Earth re-entry

Deactivated

April 5, 2020 (2020-04-05) (UTC)

Last contact

08:49:00, April 5, 2020 (UTC) (2020-04-05T08:49:00Z)

Decay date

6 April 2020

Orbital parameters

Regime

Low Earth^[4]

Inclination

51.6°^[5]

Mean motion

Velocity

7,000 m/s (16,000 mph)^[4]

Instruments

High Precision Telescope (HPT)
Space-borne Multispectral Imager (SMI)
(with Liquid Crystal Tunable Filter (LCTF))
Wide Field Camera (WFC)
Middle Field Camera (MFC)

Diwata-1 mission emblem

Philippine Scientific Earth Observation Microsatellite program

Maya-1 →

Diwata-1^[6] also known as PHL-Microsat-1 was a Philippine microsatellite launched to the International Space Station (ISS) on March 23, 2016, and was deployed into orbit from the ISS on April 27, 2016. It was the first Philippine microsatellite and the first satellite built and designed by Filipinos.^[7]^[8] It was followed by Diwata-2, launched in 2018.

Background[edit]

Hokkaido University and Tohoku University of Japan initiated a project to send 50 microsatellites into space by 2050. The project will photograph aftermaths of natural disasters, partnering with governments, universities and other organizations based in Bangladesh, Indonesia, Malaysia, Myanmar, Mongolia, Philippines, Thailand, and Vietnam. Two satellites are commissioned for the Philippine government.^[9]^[10]

Diwata-1 was the first satellite of the venture made possible through the Philippine Scientific Earth Observation Microsatellite (PHL-Microsat) Program,^[11] a three-year program funded by the Department of Science and Technology (DOST). The program is a collaboration between the University of the Philippines, the DOST-Advanced Science and Technology Institute (DOST-ASTI), and Japan's Tohoku University and Hokkaido University. It was initiated in December 2014 by DOST.^[5] The satellite was an updated version of the Raijin-2, which was developed by the two Japanese universities.^[12]

Uploading of commands to Diwata-1 and downloading of the images were done in the Philippines' very own Philippine Earth Data Resources Observation Center (PEDRO) ground receiving station. Image processing was also performed locally.

There were two Philippine satellites before Diwata-1, Agila-1 and Agila-2 (later renamed ABS-3) but the former was owned and operated by a non-Philippine firm, PT Pasifik Satelit Nusantara, at the time of its launch and the latter was owned by Mabuhay Satellite Corporation, a private local firm, but later acquired by Asia Broadcast Satellite, a foreign firm.^[8]

The government has been availing services from foreign countries for satellite imagery. Carlos Primo David, former executive director of the Philippine Council for Industry, Energy and Emerging Technology Research and Development (PCIEERD) called the PHL-Microsat program a "small investment"^[8] taking note that in 2013, following the aftermath of Typhoon Haiyan (locally known as Typhoon Yolanda), the government had to pay about ₱56 million for satellite imagery of an area affected by the typhoon dubbed as the "Yolanda Corridor".^[8]^[10] This led to the creation of the PHL-Microsat program.

Etymology[edit]

The satellite was named after a type of divine being from Philippine mythology, the diwata.^[13]

Development[edit]

The turnover of the satellite to JAXA at the Tsukuba Space Center, January 13, 2016

A team of nine Filipino engineers from the DOST-Advanced Science and Technology Institute (ASTI) and the University of the Philippines, dubbed the "Magnificent 9", were responsible for the production of Diwata-1 and collaborated with scientists and engineers from the two Japanese universities.^[6]^[14] They were sent to Japan in October 2015.^[15] The assembly and testing of Diwata-1 was completed in December 2015.^[16]

Diwata-1 was handed over to the Japan Aerospace Exploration Agency (JAXA) on January 13, 2016, at the Tsukuba Space CenterinTsukuba, Japan.^[6]^[8]^[16] On January 18, 2016,^[17] JAXA sent the satellite to the National Aeronautics and Space Administration (NASA) in the United States after conducting final tests on the satellite.^[8]

Component tests, first vibration tests, post-vibration electrical tests, off-gas test, and fit checking were conducted on the satellite. Continuous functionality test of modules and sensors and software optimization were also done on the satellite.^[18]

Instruments[edit]

Diwata-1 in Japan

Diwata-1 had three scientific instruments: the High Precision Telescope (HPT); Space-borne Multispectral Imager (SMI) with Liquid Crystal Tunable Filter (LCTF); and the Wide Field Camera (WFC). Diwata-1 also had one engineering control instrument, the Middle Field Camera (MFC).^[19]

The HPT – with a ground sample distance (GSD) of 3 metres (9.8 ft) at 400 kilometres (250 mi) – was studied on how it can be used to monitor the extent of damages from natural disasters such as typhoons. It was also equipped with four CCDs for the red, blue, green, and near infrared regions of light.^[19]

The SMI with LCTF – with a GSD of 80 metres (260 ft) at 400 kilometres (250 mi) – was studied on how it can be used in measuring vegetation changes and phytoplankton biomass in Philippine waters. The instrument was equipped with two CCDs for both visible (420–700 nm) and near infrared (650–1050 nm) regions with a 13 nm interval.^[19]

The WFC – which has a GSD of 7 kilometres (4.3 mi) and a panchromatic CCD with a field view of 1800 × 1340 – was used to give visualizations of large-scale cloud patterns and distributions. Diwata-1 could be used to take daily images using the WFC in case of any upcoming large-scale weather disturbances, such as storms or typhoons.

The calibration of the attitude determination algorithm was handled by the MFC. The instrument was equipped with a colored CCD and expected GSD of 185 metres (607 ft), and also aided in locating images captured by the HPT and SMI.^[19]

Launch and mission[edit]

Launch from Cape Canaveral[edit]

Atlas V rocket that carried Cygnus CRS OA-6, which delivered Diwata-1 to the ISS.

The launch of Diwata-1 occurred on March 23, 2016, at Cape Canaveral, Florida in the United States. It was a payload of Orbital ATK's Cygnus spacecraft which was launched through the Atlas V rocket as part of a supply mission to the International Space Station (ISS).^[20]^[2]^[18] Initially, the plan was to launch Diwata-1 through a vehicle by SpaceX, from either CaliforniaorFlorida.^[16] Earlier, an orbital slot was secured from JAXA for Diwata-1.^[21] Cygnus managed to reach the ISS on March 26. The spacecraft unloaded its cargo, including Diwata-1, to the ISS in the span of two weeks.^[22]

Deployment into orbit from the ISS[edit]

The Kibo module at the ISS

Diwata-1 was set to be deployed from the International Space Station from the Kibo module.^[6]^[11]^[23] The satellite was inspected on board the station before its deployment in April for at least 18 months of program activity.^[8]^[21] The deployment mechanism for the satellite was the JEM Small Satellite Orbital Deployer (J-SSOD).^[17]

By January 2016, the Kibo module had already deployed 106 small satellites. The Diwata-1 deployment marked the first attempt of the module to deploy a smaller, 50-kg class, microsatellite.^[24] The deployment of Diwata-1 was scheduled on April 20 or 21, 2016.^[25] Prior to the Cygnus launch, The DOST has made a request to JAXA to deploy the satellite into space between March 21 and April 30, 2016, at the time the ISS is at its highest altitude.^[18] The deployment was later announced to take place on April 27, 7:00 p.m (PST).^[26] The actual deployment occurred at 7:45 p.m. with British astronaut Tim Peake involved in the operation to put the satellite into orbit.^[27]

In the occasion of the deployment, the Philippine flag was raised along with the Japanese flag at the Tsukuba Space Center of the JAXA.^[27]

Operation[edit]

The mission duration of the satellite was expected to take place for around 20 months,^[3] 2 months longer than earlier reported. The engineering team behind Diwata-1 at the Tohoku University was able to receive the satellite's first communication hours later after its deployment from the ISS, at 7:45 p.m. PST.^[1]

A ground station based in the Philippines, the Philippine Earth Data Resources Observation (PEDRO) Center, had primary control over the satellite with a command line on the UHF band. PEDRO received telemetry data sent by Diwata-1 via UHF band and received images via X-band.^[8] The Tohoku University Ground station (CRESST)^[5] also has access to the satellite.

Weeks into the satellite's deployment since the Cygnus launch, the setting up of a temporary ground receiving station at the DOST ASTI building was being hastened by DOST units, PCIEERD and Advanced Science and Technology Institute. Diwata-1 was operational at least a week after its deployment into orbit.^[25]

The satellite's first images were released in public by the Tohoku University on June 2, 2016, via a Japanese press release. The satellite shot images of Isabela province on the island of Luzon, and parts of Northern Japan.^[28] It also captured images of the coastlines of Palawan, showing signs of siltation on certain parts of the coastline.^[29]

By October 2018, Diwata-1 has captured 14,492 images in the Philippines covering an area equivalent to 32 percent of the country's land area. Among those captured images was that of Semirara Island and Laguna de Bay.^[30] As of the same month, the satellite remained operational^[31] and was projected to be still functioning for at least three years given favorable conditions in space.^[30]

The decommissioning phase of Diwata-1 began on March 20, 2020, and was made to drop its altitude. It entered the Earth's atmosphere on April 6, 2020, and the last signal from the satellite was received at 4:49 a.m. PST. The satellite had photographed 114,087 square metres (1,228,020 sq ft) of the Philippines, had captured more than 17,000 images of the Earth, orbited the Earth about 22,642 times, and passed by the Philippines around 4,800 times throughout its mission.^[32]

Impact[edit]

"We hope that this inspires our young children to go into space science; it overcomes a psychological barrier. A lot of kids think of this as just science fiction. But this shows that Filipinos, given enough support, can do what first world countries are doing in space"

Dr. Fidel Nemenzo, UP-Diliman Vice Chancellor for Research and Development on Diwata-1 following its deployment into orbit.^[27]

One of the major goals of the PHL-Microsat program, to which Diwata-1 belongs, is to boost the progress on the creation of the Philippine Space Agency.^[10] Then-DOST secretary Mario Montejo said that the Diwata-1 may pave the way for development of the local electronics and aerospace industries, which would complement a satellite-building industry.^[33]

The University of the Philippines Diliman campus has allocated an area for a space research laboratory for the continued development of microsatellite technology, where the Filipino scientists who were involved in the Diwata-1 project can teach and train local engineers. The facility will be funded by the PCIEERD of DOST.

References[edit]

^ ^a ^b Dimacali, TJ (April 28, 2016). "Diwata-1 phones home: 'Maayos ang lahat'" [Diwata-1 phones home: 'Everything's okay']. GMA News. Retrieved April 28, 2016.

^ ^a ^b Clark, Stephen. "Launch Schedule". spaceflightnow.com. Retrieved March 21, 2016.

^ ^a ^b Suarez, KD (April 27, 2016). "Diwata-1, the first Philippine microsatellite, deployed to space". Rappler. Retrieved April 27, 2016.

^ ^a ^b Suarez, KD (January 13, 2016). "One giant leap: PH microsatellite a step closer to launch". Rappler. Retrieved January 13, 2016.

^ ^a ^b ^c Sakamoto, Yuji; Gonzalez, Ariston; Espiritu, Juan Paolo; Labrador, John Leur; Oliveros, Julian; Kuwahara, Toshinori; Yoshida, Kazuya (May 25, 2015). "Development of the Satellite Bus System for PHL-MICROSAT". Japan Geoscience Union. Chiba. Retrieved January 19, 2016.

^ ^a ^b ^c ^d Usman, Edd (January 13, 2016). "PH makes history, hands over Diwata-1 to JAXA for space launch". Manila Bulletin. Archived from the original on January 16, 2016. Retrieved January 13, 2016.

^ "First Philippine microsatellite "DIWATA" set to launch". Official Gazette of the Republic of the Philippines. January 18, 2015. Archived from the original on August 31, 2023. Retrieved February 7, 2016.

^ ^a ^b ^c ^d ^e ^f ^g ^h Yee, Jovic (January 12, 2015). "1st PH-made satellite set to go into space". Philippine Daily Inquirer. Retrieved January 13, 2016.

^ "Asian Universities + Asian Nations Go Small... Monitor Natural Disasters w/Network Of Microsatellites". Satnews Daily. January 13, 2016. Retrieved January 14, 2016.

^ ^a ^b ^c Usman, Edd (January 15, 2016). "DOST says PHL joining Asian 50-microsatellite alliance of 9 countries". Manila Bulletin. Archived from the original on February 20, 2016. Retrieved January 15, 2016.

^ ^a ^b Ranada, Pia (March 10, 2015). "Introducing Diwata, the first Philippine-made satellite". Rappler. Retrieved March 12, 2015.

^ Morimoto, Miki (March 6, 2015). "Japanese, Filipino researchers to jointly develop satellites to check typhoon damage". Asahi Shimbun. Archived from the original on March 10, 2015. Retrieved March 12, 2015.

^ "DOST: First Filipino-made satellite to help agriculture". EdgeDavao. Philippine News Agency. January 19, 2016. Retrieved January 19, 2016.

^ Usman (January 31, 2016). "Yes, Filipinos can!". Manila Bulletin. Archived from the original on February 2, 2016. Retrieved February 3, 2016.

^ Usman, Edd (December 27, 2014). "DOST marks 2014 with 4 int'l awards". Manila Bulletin. Archived from the original on February 26, 2015. Retrieved February 26, 2015.

^ ^a ^b ^c Usman, Edd (January 2, 2016). "DOST, 2 Japanese universities complete Philippine satellite for launching in space". Manila Bulletin. Archived from the original on January 6, 2016. Retrieved January 2, 2016.

^ ^a ^b "フィリピン政府国産初となる50kg級超小型衛星「DIWATA-1」の受領完了 ~2016年春、打上げ・初の放出へ。「きぼう」の船外利用は多様化へ~" [Diwata-1, First Philippine-made 50kg microsatellite, to be launched in Spring of 2016. Kibo module to be used.] (in Japanese). Japan Aerospace Exploration Agency. January 22, 2016. Retrieved January 29, 2016.

^ ^a ^b ^c Arayata, Maria Cristina (March 22, 2016). "NASA set to launch Philippines' 1st microsatellite to the ISS". InterAksyon. Philippines News Agency. Archived from the original on March 23, 2016. Retrieved March 22, 2016.

^ ^a ^b ^c ^d Vergel, Kaye Kristine; Magallon, Benjamin Jonah; Takahashi, Yukihiro; Ishida, Tetsuro; Perez, Gay Jane; Tupas, Mark Edwin; Marciano, Joel (November 2, 2015). "Science Missions and Payloads Specifications of Philippines' First Earth-Observation Microsatellite: Diwata" (PDF). Japan Geoscience Union. Archived from the original (PDF) on February 1, 2016. Retrieved January 18, 2016.

^ Dimacali, TJ (March 21, 2016). "First Pinoy satellite DIWATA-1 to launch on Wednesday". GMA News. Retrieved March 21, 2016.

^ ^a ^b Usman, Edd (January 12, 2016). "PH microsatellite set to be launched in April". Manila Bulletin. Retrieved January 19, 2016.

^ Usman, Edd (March 28, 2016). "PH's 'Diwata-1' microsatellite successfully reaches ISS". Manila Bulletin. Archived from the original on April 14, 2016. Retrieved March 28, 2016.

^ Gonzales, Grace (March 10, 2015). "PHL working with Japan to launch first Filipino-made satellite in space". Ang Malaya Net. Retrieved March 12, 2015.

^ Usman, Edd (January 31, 2016). "Deployment of Diwata-1 in space, a first for Japan's Kibo". Manila Bulletin. Archived from the original on March 3, 2016. Retrieved February 3, 2016.

^ ^a ^b Ronda, Rainier Allan (March 28, 2016). "First Philippine satellite reaches space station". The Philippine Star. Retrieved March 28, 2016.

^ "Diwata-1 Earth Observation Satellite deployed from Space Station". Spaceflight101. Retrieved December 9, 2022.

^ ^a ^b ^c Dimacali, TJ (April 27, 2016). "PHL's first satellite Diwata-1 launched into orbit". GMA News. Retrieved April 27, 2016.

^ "Diwata-1 satellite's first images made public". Rappler. June 2, 2016. Retrieved July 24, 2016.

^ "'Diwata' warns of siltation in Palawan coastline". Philippine Daily Inquirer. March 8, 2017. Retrieved March 8, 2017.

^ ^a ^b Tumampos, Stephanie; Resurreccion, Lyn (October 29, 2018). "PHL flying high–into space". BusinessMirror. Retrieved October 29, 2018.

^ "DOST to launch microsatellite to gather data on disasters". PTV News. October 27, 2018. Retrieved October 27, 2018.

^ "Philippines' first satellite Diwata-1 returns to Earth". GMA News. April 8, 2020. Retrieved April 8, 2020.

^ Ronda, Rainier Allan (January 18, 2016). "Diwata-1 may pave way for local satellite-building industry". The Philippine Star. Retrieved January 19, 2016.

← 2015

Orbital launches in 2016

2017 →

January

Belintersat-1

February

BeiDou M3-S

USA-266 / GPS IIF -12

Kosmos 2514 / GLONASS-M 751

Kwangmyŏngsŏng-4

USA-267 / Topaz-4

Sentinel-3A

ASTRO-H / Hitomi

March

SES-9

Eutelsat 65 West A

IRNSS-1F

Resurs-P №3

ExoMars Trace Gas Orbiter, Schiaparelli EDM

Soyuz TMA-20M

Cygnus CRS OA-6 (Diwata-1, Flock-2e' × 20 , Lemur-2 × 9)

Kosmos 2515 / Bars-M 2L

BeiDou IGSO-6

Progress MS-02

April

Shijian-10

Dragon CRS-8, BEAM

Sentinel-1B, MICROSCOPE, e-st@r-II

Mikhailo Lomonosov

IRNSS-1G

May

JCSAT-14

Yaogan 30

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Thaicom 8

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Ziyuan III-02, ÑuSat 1, 2

June

Kosmos 2517 / Geo-IK-2 №12

Intelsat 31 / DLA-2

USA-268 / Orion 9

BeiDou G7

Eutelsat 117 West B, ABS-2A

Cartosat-2C, M3MSat, Flock-2p × 12, SathyabamaSat, Swayam

MUOS-5

Chinese next-generation crew capsule scale model

Shijian 16-02

July

Soyuz MS-01

Progress MS-03

Dragon CRS-9

USA-269 / NROL-61

August

Tiantong-101

Gaofen-3

JCSAT-16

QUESS / Mozi / Micius

USA-270 / GSSAP-3, USA-271 / GSSAP-4

Intelsat 33e, Intelsat 36

Gaofen-10†

September

AMOS-6†

SkySat × 4

ScatSat-1, Alsat-1B, Alsat-2B, BlackSky Pathfinder-1, Pratham, CanX-7, PISat

October

Sky Muster II, GSAT-18

Shenzhou 11

Cygnus CRS OA-5 (Lemur-2 × 4)

Soyuz MS-02

November

Himawari 9

Shijian-17

XPNAV 1

WorldView-4, CELTEE 1, Prometheus-2 × 2, AeroCube 8 × 2, U2U, RAVAN

Yunhai-1

Galileo FOC 7, 12, 13, 14

Soyuz MS-03

GOES-R

Tianlian I-04

December

Progress MS-04

Göktürk-1

Resourcesat-2A

WGS-8

HTV-6 / Kounotori 6, (EGG, TuPOD, UBAKUSAT, AOBA-VELOX, STARS, FREEDOM, ITF, Waseda-SAT, OSNSAT, Tancredo-1, TechEDSat, Lemur-2 × 4)

Fengyun 4A

CYGNSS × 8

EchoStar 19

Arase / ERG

TanSat, Spark × 2

Star One D1, JCSAT-15

SuperView / Gaojing-1 01, 02, Bayi Kepu1

Launches are separated by dots ( • ), payloads by commas ( , ), multiple names for the same satellite by slashes ( / ).
Crewed flights are underlined. Launch failures are marked with the † sign. Payloads deployed from other spacecraft are (enclosed in parentheses).