Otaran Congressional Space Command: Difference between revisions

Jump to navigation Jump to search
No edit summary
No edit summary
 
(5 intermediate revisions by the same user not shown)
Line 28: Line 28:
|motto          = Outward, for eternity
|motto          = Outward, for eternity
|employees      = 35,059 (civilian) <br> 6,014 (military)
|employees      = 35,059 (civilian) <br> 6,014 (military)
|budget          = $45.7 billion
|budget          = $31.2 billion
|minister1_name  = {{flagicon|Otara}} Loto Tupuola
|minister1_name  = {{flagicon|Otara}} Loto Tupuola
|minister1_pfo  = Minister of Defence
|minister1_pfo  = Minister of Defence
Line 80: Line 80:
The OHX Program was centered around the development of the technology necessary to put a man in orbit and return them safely. Otaran astonauts would mount rudimentary spacecraft known as ballistic capsules. On board a ballistic capsule arried into orbit by an early Messalina II launch vehicle, Leku Tanielu would become the first Otaran in space on December 28, 1961. The launch procedure for this mission required both the use of electronic and human computers, working in tandem, with human computers (Phillip Dowd, Meilani Rameka, Shinji Hirota) cross-checking trajectory equations being run by electronic computers. Through this method, the OHX program brought four Otaran astronauts into orbit before it's termination in 1963.
The OHX Program was centered around the development of the technology necessary to put a man in orbit and return them safely. Otaran astonauts would mount rudimentary spacecraft known as ballistic capsules. On board a ballistic capsule arried into orbit by an early Messalina II launch vehicle, Leku Tanielu would become the first Otaran in space on December 28, 1961. The launch procedure for this mission required both the use of electronic and human computers, working in tandem, with human computers (Phillip Dowd, Meilani Rameka, Shinji Hirota) cross-checking trajectory equations being run by electronic computers. Through this method, the OHX program brought four Otaran astronauts into orbit before it's termination in 1963.
====Kaite Program (1960-1966)====
====Kaite Program (1960-1966)====
The Kaite Program, developing off of the OHX Program, placed a focus on enhancing the capabilities and practicality of ballistic capsules initially launched under the OHX designation. This led to the development of the Kaite spacecraft, which included multiple features which placed it several steps ahead of the OHX capsules. The Kaite spacecraft was separated into separate modules, including the Adapter module, housing the majority of the craft's critical systems, and the Reentry module, carrying the astronaut. Most notably, it was the first spacecraft to include in flight radar, artificial horizon, and an onboard computer system.
[[File:Gemini_11_Agena.jpg|thumb|right|200px|Kaite IX conducting a tethering operation on a target docking vehicle]] The Kaite Program, developing off of the OHX Program, placed a focus on enhancing the capabilities and practicality of ballistic capsules initially launched under the OHX designation. This led to the development of the Kaite spacecraft, which included multiple features which placed it several steps ahead of the OHX capsules. The Kaite spacecraft was separated into separate modules, including the Adapter module, housing the majority of the craft's critical systems, and the Reentry module, carrying the astronaut. Most notably, it was the first spacecraft to include in flight radar, artificial horizon, and an onboard computer system.


Using the newly created capsules, the Kaite Program placed a focus on researching and enhancing astronaut and spacecraft capability. The program served to adapt Otaran spacecraft for long-duration flights, as well as developing EVA techniques, space rendezvous, docking, and landing techniques that would prove extremely critical for the future of Otaran manned spaceflight. Techniques and methods learnt in this program would translate into every future manned program in some form, primarily in the early stages of the Oaho program.
Using the newly created capsules, the Kaite Program placed a focus on researching and enhancing astronaut and spacecraft capability. The program served to adapt Otaran spacecraft for long-duration flights, as well as developing EVA techniques, space rendezvous, docking, and landing techniques that would prove extremely critical for the future of Otaran manned spaceflight. Techniques and methods learnt in this program would translate into every future manned program in some form, primarily in the early stages of the Oaho program.
====Oaho Program (1960-1982)====
====Oaho Program (1960-1982)====
The Oaho Program was one of the most expensive programs ever undertaken by the OCSC. It focused around the development of the largest launch vehicles and spacecraft at the time. The {{wp|Saturn (rocket family)|O3}} and {{wp|Nova (rocket)|O3L}} families of rockets were far larger than any of the launch vehicles that preceded them, and they were necessary to develop in order to launch the {{wp|Apollo (spacecraft)|Oaho}} spacecraft into orbit and beyond. The Oaho spacecraft consisted of a command module and service module, in later iterations including a lunar module. The command module housed the astronauts from the launch sequence to the return sequence, and featured an ablative heat shield, a reaction control system, and advanced steering controls such as atmospheric and altitude control. Similar to the Kaite adapter module, the service module included the critical systems necessary to support the command module, including fuel cell power generation with advanced liquid hydrogen and liquid oxygen reactants, a reaction control system with propellants, and an antenna for long distance communications from lunar orbit. A Block II variation of the Oaho spacecraft would add on a lunar module, designed to land and stay on the moon using docking equipment innovated from the Kaite experiments.
[[File:Aldrin_Looks_Back_at_Tranquility_Base_-_GPN-2000-001102.jpg|thumb|right|200px|Astronaut Miles Johnson, the second man on the moon, next to experimental equipment and the lunar module]]The Oaho Program was one of the most expensive programs ever undertaken by the OCSC. It focused around the development of the largest launch vehicles and spacecraft at the time. The {{wp|Saturn (rocket family)|O3}} and {{wp|Nova (rocket)|O3L}} families of rockets were far larger than any of the launch vehicles that preceded them, and they were necessary to develop in order to launch the {{wp|Apollo (spacecraft)|Oaho}} spacecraft into orbit and beyond. The Oaho spacecraft consisted of a command module and service module, in later iterations including a lunar module. The command module housed the astronauts from the launch sequence to the return sequence, and featured an ablative heat shield, a reaction control system, and advanced steering controls such as atmospheric and altitude control. Similar to the Kaite adapter module, the service module included the critical systems necessary to support the command module, including fuel cell power generation with advanced liquid hydrogen and liquid oxygen reactants, a reaction control system with propellants, and an antenna for long distance communications from lunar orbit. A Block II variation of the Oaho spacecraft would add on a lunar module, designed to land and stay on the moon using docking equipment innovated from the Kaite experiments.


The Oaho Program would land a total of 18 Otaran astronauts on the moon, the first of them being Ioane Kahuila, who landed on the moon in February 12, 1969. Moon landing missions were carried out in 1969, 1971, 1974, 1979, 1980, and 1982. Astronauts executed a variety of experiments while on the surface of the moon, collecting samples and conducting studies on soil mechanics, meteoroids, seismology, heat flow, lunar ranging, magnetic fields, and solar wind. Additionally, the last two landings were noted to include studies related to the feasibility of long-term sustained living both on the moon and in space, which would form the foundations for the Yuru and Kalei programs, launched decades later.
[[File:Apollo_11_lunar_module.jpg|thumb|left|200px|Oaho XI's lunar module in rendezvous stage with the command and service module]]The Oaho Program would land a total of 18 Otaran astronauts on the moon, the first of them being Ioane Kahuila, who landed on the moon in February 12, 1969. Moon landing missions were carried out in 1969, 1971, 1974, 1979, 1980, and 1982. Astronauts executed a variety of experiments while on the surface of the moon, collecting samples and conducting studies on soil mechanics, meteoroids, seismology, heat flow, lunar ranging, magnetic fields, and solar wind. Additionally, the last two landings were noted to include studies related to the feasibility of long-term sustained living both on the moon and in space, which would form the foundations for the Yuru and Kalei programs, launched decades later. The Oaho Program pioneered dramatic leaps in advances across several fields of technology, including avionics, telecommunications, and computers. Information gathered and tried during the program would be made public, and would spur innovators across Otara to develop the foundations for modern electronic infrastructure, long-distance communication, rapid communication, and advancements within the computing industry.
====Yuru Program (1992-present)====
====Yuru Program (1993-present)====
====Kalei Program (2003-present)====
[[File:2024_Lunar_Gateway_concept_art,_March_2020.jpg|thumb|right|200px|Yuru II or Lunar Gateway Station (LGS) in Lunar orbit]]Noticing the enormous costs of the Oaho Program and the toll they took on the OCSC's funds as a whole, the OCSC refrained from further manned missions to space for over a decade. For most of the intermittent decade, the OCSC dedicated its funds for manned programs towards Earth-based simulations and training using information collated from the Oaho Program, with a specific focus on deep space habitation, extravehicular activity, and accident management, with a goal of breeding the next generation of astronauts meant to participate in the upcoming Yuru Program. The Yuru Program was officially announced in 1993 (though it is estimated that the program had been underway since at least 1988), when the OCSC announced that it had ambitions to return to the Moon for a sustained period of time in the 2010s-2020s and land men on Mars by 2030. The stated goal of the Yuru program was to establish the necessary support infrastructure to achieve further Moon landings and future Mars landings. With such infrastructure in place, the OCSC presented that it could drastically reduce the costs of such ambitious projects, and avoid the funding pitfalls present within the previous Oaho Program.
====MXM Program (2014-present)====
 
[[File:Lagrange_points_Earth_vs_Moon.jpg|thumb|left|200px|A map of Earth-Moon Lagrange Points]]From the beginning of the Program, OCSC teams worked in tandem with [[Iris (corporation)|Iris]] development teams in the construction of two separate space stations - the Exploration Intermittent Platform and the Lunar Gateway Station. The Exploration Intermittent Platform, crewed by 6 astronauts, would be constructed in Low Earth Orbit, with parts being transported via {{wpl|Delta IV Heavy|O4 Block II Heavy}} and {{wpl|Atlas V|O5 Block V}} rockets between 2000-2005. It consists of an advance modular life support module outfitted with life support systems, crew storage, large laboratory space, and a computerized smart control system, and utility modules for extravehicular activity and maintenance. In 2005, it was transported to L1 Parking Orbit, and serves as a reusable launch platform for deep space exploration, refueling depot, service and maintenance station, telescope hub, and signal relay hub for Moon rovers and other lunar vehicles. The Lunar Gateway Station, a large space station intended to house up to 8 (minimum of 4) astronauts, would be constructed between 2005-2013, primarily utilizing the same O4 and O5 rockets used to construct the EIP, but later, with much more efficiency using {{wpl|Falcon 9|O6}} and {{wpl|Falcon Heavy|O6 Heavy}} rockets, developed in tandem with Lukan Aerospace. The Lunar Gateway Station is by far the OCSC's most advanced space station, consisting of reusable support/supply modules, a habitation and logistics outpost (HALO) module, and an advanced propulsion system using solar electric power for {{wpl|Hall-effect thruster|Hall-effect thrusters}}. Furthermore, it's smart computer systems conduct passive maintenance and checkups on the station, but can be actively utilized via a fully touchscreen control system within the HALO module. It serves as the OCSC's modern platform for lunar and deep space habitation studies, with infrastructure for studies the scientific disciplines of planetary science, astrophysics, heliophysics, space biology, and human biology in space.
 
[[File:Starship_Human_Landing_System.png|thumb|right|200px|NGHLS on the surface of the Moon]]In order to service the OCSC's ambitions for consistent, cheap Lunar missions, the OCSC needed to innovate further on both Lunar landing systems as well as delivery and launch systems. The OCSC co-operated with private space exploration companies Iris and Lukan, as well as Kankaite Aerospace and Lakoa Aerospace to not only develop previously mentioned re-usable rockets such as the 06 series, but also to develop the the Next Generation Human Landing System (NGHLS), meant for compatibility with the LGS station as a fully-reusable planetary lander. The NGHLS, with it's expansive interior space, allows for transportation of heavy cargo and large living accomondations, allowing for long-duration sustained surface missions.
====Kalei Program (2013-present)====
The Kalei Progam is the OCSC's program for sustained human activity in Lunar orbit and on the surface of the Moon itself. It has conducted two separate expeditions over the course of 7 years, with one ongoing.
{| class="wikitable"
|- style="background:#aabccc;"
! '''Official Designation'''
! '''Expedition Name'''
! '''Mission Timeline'''
! '''Crew'''
! '''Notes'''
|-----
| Kalei I
| Breakthrough
| June 12, 2013 - February 2, 2014
| {{flagicon|OCM}} Starbase MSgt Kane Hall <br> {{flagicon|OCM}} Astronaut Tueilaepa Talagi  <br> {{flagicon|Otara}} Tupua Hoapili  <br> {{flagicon|Otara}} Aleki Kealoha <br> {{flagicon|Otara}} Shinzo Midoriya
| Conducted 8 surface missions <br> Deployed long-distance manned and unmanned rovers, camera systems, experimentation equipment <br> First studies of {{wpl|Mons Huygens}}
|-----
| Kalei II
| Endurance
| December 7, 2016 - January 12, 2018
| {{flagicon|OCM}} Starbase MSgt Kane Hall <br> {{flagicon|OCM}} Astronaut Tueilaepa Talagi <br> {{flagicon|OCM}} Astronaut Hiroshi Murakame <br> {{flagicon|Otara}} Goha Tanielu  <br> {{flagicon|Otara}} Randall Hobbs <br> {{flagicon|Otara}} Sailele Misipeka
| Conducted 12 surface missions <br> Collection of data from and maintenance operations on experimentation equipment and rovers <br> Establishment of preliminary infrastructure for study of {{wpl|Mare Imbrium}}
|-----
| Kalei III
| Perseverance
| January 2, 2020 - ongoing
| {{flagicon|OCM}} Starbase MSgt Tamarat Seufale <br> {{flagicon|OCM}} Astronaut Matthew Hughes <br> {{flagicon|Otara}} Randall Hobbs <br> {{flagicon|Otara}} Shinzo Midoriya
| Currently studying {{wpl|Mare Imbrium}} <br> Focused on deploying updated rovers, replacing used experimentation equipment <br> Smaller human complement due to larger cargo load, need for longer sustenance
|-----
|}
===Uncrewed programs===
===Uncrewed programs===
[[File:8423_20181_1saturn2016.jpg|thumb|right|200px|Saturn, as pictured by an OCSC probe]]Since its foundation in 1959, uncrewed programs have been the most common types of missions conducted by the OCSC, and have been the organization's mainstay for deep space exploration, launching a number of space probes, satellites, and rovers across both the inner and outer solar system. It has deployed dozens of deep space probes for in-depth planetary imaging, taking some of the most detailed pictures of inner and outer planets known to man. It has deployed several unmanned Lunar and Mars rovers, which collect samples and relay imaging and composition data back to the OCSC, and have been critical to the study of Lunar and Martian geography and history. Through samples collected from the OCSC's Mars rovers and images collected via orbital probes, the OCSC was able to determine that there was once water on Mars, and that the potential for microbial life did exist some time in the past, and could still exist in the present. Furthermore, the OCSC has developed and deployed a large space telescope for celestial imaging, proving vital for astronomical studies.
====Omniscience Initiative (1964-present)====
====Omniscience Initiative (1964-present)====
The Omniscience Initiative was a program initiated in 1964 by the Congressional Space Force under the OCSC. It is the program which launches, maintains, and collects data from Otara's reconnaissance satellites. It is currently the only declassified military-only program within the OCSC.
===Planned programs===
===Planned programs===
====MXM Program====
The MXM Program is an OCSC initiative to land humans on the Mars developing off of technical knowledge and information gathered during the Yure and Kalei Programs. It is expected to launch officially in 2022-23, with prospective Mars landings the late 2020s to early 2030s.


==Research and Earth-based programs==
==Research and Earth-based programs==
Line 100: Line 137:


==Facilities==
==Facilities==
 
[[File:Launch_of_Falcon_9_carrying_DSCOVR_(16512864369).jpg|thumb|right|200px|{{wpl|Falcon 9|O6}} rocket launching from PCSC]]
==Vehicle fleet==
*'''Hono Space Center''' - launch facility and control center for human spaceflight and sustained missions
===Launch===
*'''Palm Coast Space Center''' - launch facility and control center for uncrewed missions
===Manned===
*'''Kiribaya Research Center''' - research and development facility on the Kiribayan coast
===Unmanned===
*'''Okailua Research Center''' - research and development facility for the Okailua province
 
*'''Kanekita Spaceflight Academy''' - OCSC's civilian spaceflight academy
*'''Talau Research Academy''' - joint civilian-military research and development facility on Talau, heavily restricted
*'''Congressional Space Force Academy''' - military spaceflight academy, heavily restricted
*'''Congressional Space Force Capital Launch Center''' - military launch facility, launched all reconnaissance satellites, heavily restricted
*'''Makihaya Test and Assembly Center''' - joint civilian-military test facility and project assembly center, heavily restricted
[[Category:Otara]]
[[Category:Otara]]

Latest revision as of 10:17, 12 March 2021

Otaran Congressional Space Command
OCSClogo.png
Emblem
Agency overview
FormedMay 27, 1959; 65 years ago (1959-05-27)
JurisdictionOtaran Congress
HeadquartersKiribaya, Otara
MottoOutward, for eternity
Employees35,059 (civilian)
6,014 (military)
Annual budget$31.2 billion
Minister responsible
  • Otaran Congressional Republic Loto Tupuola, Minister of Defence
Agency executives
Parent departmentMinistry of Defence
Websitewww.OCSC.ocg

The Otaran Congressional Space Command is a jointly independent and congressional defence agency consisting of a civilian space program and aerospace/aeronautical research program and the Otaran Congressional Military's space force, responsible for expanding and maintaining Otaran interests in space. The organization was established in 1959 with the overarching objective of achieving Otara's objectives for space, both civilian and military. In co-operation with Otaran private space companies Iris and Lukan, as well as prevalent aerospace companies such as Kankaite Aerospace and Lakoa, the OCSC has been responsible for leading the majority of Otara's space exploration efforts. OCSC is responsible for the development, maintenance, and execution of all governmental space initiatives in Otara, both civilian and military.

Mission and functions

The Otaran Congressional Space Command, as a whole, is responsible for the following:

  • aerospace and aeronautics research and development
  • space exploration
  • space technology research and development
  • manned and unmanned spaceflight
  • space superiority
  • space domain awareness (military, civilian, commercial)
  • offensive and defensive space control
  • command and control of spaceflights and satellites, both civilian and military
  • space support to military and civilian operations
  • missile early warning and defense

Spaceflight programs

Crewed programs

OHX Program (1959-1963)

The OHX Program was centered around the development of the technology necessary to put a man in orbit and return them safely. Otaran astonauts would mount rudimentary spacecraft known as ballistic capsules. On board a ballistic capsule arried into orbit by an early Messalina II launch vehicle, Leku Tanielu would become the first Otaran in space on December 28, 1961. The launch procedure for this mission required both the use of electronic and human computers, working in tandem, with human computers (Phillip Dowd, Meilani Rameka, Shinji Hirota) cross-checking trajectory equations being run by electronic computers. Through this method, the OHX program brought four Otaran astronauts into orbit before it's termination in 1963.

Kaite Program (1960-1966)

Kaite IX conducting a tethering operation on a target docking vehicle

The Kaite Program, developing off of the OHX Program, placed a focus on enhancing the capabilities and practicality of ballistic capsules initially launched under the OHX designation. This led to the development of the Kaite spacecraft, which included multiple features which placed it several steps ahead of the OHX capsules. The Kaite spacecraft was separated into separate modules, including the Adapter module, housing the majority of the craft's critical systems, and the Reentry module, carrying the astronaut. Most notably, it was the first spacecraft to include in flight radar, artificial horizon, and an onboard computer system.

Using the newly created capsules, the Kaite Program placed a focus on researching and enhancing astronaut and spacecraft capability. The program served to adapt Otaran spacecraft for long-duration flights, as well as developing EVA techniques, space rendezvous, docking, and landing techniques that would prove extremely critical for the future of Otaran manned spaceflight. Techniques and methods learnt in this program would translate into every future manned program in some form, primarily in the early stages of the Oaho program.

Oaho Program (1960-1982)

Astronaut Miles Johnson, the second man on the moon, next to experimental equipment and the lunar module

The Oaho Program was one of the most expensive programs ever undertaken by the OCSC. It focused around the development of the largest launch vehicles and spacecraft at the time. The O3 and O3L families of rockets were far larger than any of the launch vehicles that preceded them, and they were necessary to develop in order to launch the Oaho spacecraft into orbit and beyond. The Oaho spacecraft consisted of a command module and service module, in later iterations including a lunar module. The command module housed the astronauts from the launch sequence to the return sequence, and featured an ablative heat shield, a reaction control system, and advanced steering controls such as atmospheric and altitude control. Similar to the Kaite adapter module, the service module included the critical systems necessary to support the command module, including fuel cell power generation with advanced liquid hydrogen and liquid oxygen reactants, a reaction control system with propellants, and an antenna for long distance communications from lunar orbit. A Block II variation of the Oaho spacecraft would add on a lunar module, designed to land and stay on the moon using docking equipment innovated from the Kaite experiments.

Oaho XI's lunar module in rendezvous stage with the command and service module

The Oaho Program would land a total of 18 Otaran astronauts on the moon, the first of them being Ioane Kahuila, who landed on the moon in February 12, 1969. Moon landing missions were carried out in 1969, 1971, 1974, 1979, 1980, and 1982. Astronauts executed a variety of experiments while on the surface of the moon, collecting samples and conducting studies on soil mechanics, meteoroids, seismology, heat flow, lunar ranging, magnetic fields, and solar wind. Additionally, the last two landings were noted to include studies related to the feasibility of long-term sustained living both on the moon and in space, which would form the foundations for the Yuru and Kalei programs, launched decades later. The Oaho Program pioneered dramatic leaps in advances across several fields of technology, including avionics, telecommunications, and computers. Information gathered and tried during the program would be made public, and would spur innovators across Otara to develop the foundations for modern electronic infrastructure, long-distance communication, rapid communication, and advancements within the computing industry.

Yuru Program (1993-present)

Yuru II or Lunar Gateway Station (LGS) in Lunar orbit

Noticing the enormous costs of the Oaho Program and the toll they took on the OCSC's funds as a whole, the OCSC refrained from further manned missions to space for over a decade. For most of the intermittent decade, the OCSC dedicated its funds for manned programs towards Earth-based simulations and training using information collated from the Oaho Program, with a specific focus on deep space habitation, extravehicular activity, and accident management, with a goal of breeding the next generation of astronauts meant to participate in the upcoming Yuru Program. The Yuru Program was officially announced in 1993 (though it is estimated that the program had been underway since at least 1988), when the OCSC announced that it had ambitions to return to the Moon for a sustained period of time in the 2010s-2020s and land men on Mars by 2030. The stated goal of the Yuru program was to establish the necessary support infrastructure to achieve further Moon landings and future Mars landings. With such infrastructure in place, the OCSC presented that it could drastically reduce the costs of such ambitious projects, and avoid the funding pitfalls present within the previous Oaho Program.

A map of Earth-Moon Lagrange Points

From the beginning of the Program, OCSC teams worked in tandem with Iris development teams in the construction of two separate space stations - the Exploration Intermittent Platform and the Lunar Gateway Station. The Exploration Intermittent Platform, crewed by 6 astronauts, would be constructed in Low Earth Orbit, with parts being transported via O4 Block II Heavy and O5 Block V rockets between 2000-2005. It consists of an advance modular life support module outfitted with life support systems, crew storage, large laboratory space, and a computerized smart control system, and utility modules for extravehicular activity and maintenance. In 2005, it was transported to L1 Parking Orbit, and serves as a reusable launch platform for deep space exploration, refueling depot, service and maintenance station, telescope hub, and signal relay hub for Moon rovers and other lunar vehicles. The Lunar Gateway Station, a large space station intended to house up to 8 (minimum of 4) astronauts, would be constructed between 2005-2013, primarily utilizing the same O4 and O5 rockets used to construct the EIP, but later, with much more efficiency using O6 and O6 Heavy rockets, developed in tandem with Lukan Aerospace. The Lunar Gateway Station is by far the OCSC's most advanced space station, consisting of reusable support/supply modules, a habitation and logistics outpost (HALO) module, and an advanced propulsion system using solar electric power for Hall-effect thrusters. Furthermore, it's smart computer systems conduct passive maintenance and checkups on the station, but can be actively utilized via a fully touchscreen control system within the HALO module. It serves as the OCSC's modern platform for lunar and deep space habitation studies, with infrastructure for studies the scientific disciplines of planetary science, astrophysics, heliophysics, space biology, and human biology in space.

File:Starship Human Landing System.png
NGHLS on the surface of the Moon

In order to service the OCSC's ambitions for consistent, cheap Lunar missions, the OCSC needed to innovate further on both Lunar landing systems as well as delivery and launch systems. The OCSC co-operated with private space exploration companies Iris and Lukan, as well as Kankaite Aerospace and Lakoa Aerospace to not only develop previously mentioned re-usable rockets such as the 06 series, but also to develop the the Next Generation Human Landing System (NGHLS), meant for compatibility with the LGS station as a fully-reusable planetary lander. The NGHLS, with it's expansive interior space, allows for transportation of heavy cargo and large living accomondations, allowing for long-duration sustained surface missions.

Kalei Program (2013-present)

The Kalei Progam is the OCSC's program for sustained human activity in Lunar orbit and on the surface of the Moon itself. It has conducted two separate expeditions over the course of 7 years, with one ongoing.

Official Designation Expedition Name Mission Timeline Crew Notes
Kalei I Breakthrough June 12, 2013 - February 2, 2014 Otaran Congressional Military Starbase MSgt Kane Hall
Otaran Congressional Military Astronaut Tueilaepa Talagi
Otaran Congressional Republic Tupua Hoapili
Otaran Congressional Republic Aleki Kealoha
Otaran Congressional Republic Shinzo Midoriya
Conducted 8 surface missions
Deployed long-distance manned and unmanned rovers, camera systems, experimentation equipment
First studies of Mons Huygens
Kalei II Endurance December 7, 2016 - January 12, 2018 Otaran Congressional Military Starbase MSgt Kane Hall
Otaran Congressional Military Astronaut Tueilaepa Talagi
Otaran Congressional Military Astronaut Hiroshi Murakame
Otaran Congressional Republic Goha Tanielu
Otaran Congressional Republic Randall Hobbs
Otaran Congressional Republic Sailele Misipeka
Conducted 12 surface missions
Collection of data from and maintenance operations on experimentation equipment and rovers
Establishment of preliminary infrastructure for study of Mare Imbrium
Kalei III Perseverance January 2, 2020 - ongoing Otaran Congressional Military Starbase MSgt Tamarat Seufale
Otaran Congressional Military Astronaut Matthew Hughes
Otaran Congressional Republic Randall Hobbs
Otaran Congressional Republic Shinzo Midoriya
Currently studying Mare Imbrium
Focused on deploying updated rovers, replacing used experimentation equipment
Smaller human complement due to larger cargo load, need for longer sustenance

Uncrewed programs

Saturn, as pictured by an OCSC probe

Since its foundation in 1959, uncrewed programs have been the most common types of missions conducted by the OCSC, and have been the organization's mainstay for deep space exploration, launching a number of space probes, satellites, and rovers across both the inner and outer solar system. It has deployed dozens of deep space probes for in-depth planetary imaging, taking some of the most detailed pictures of inner and outer planets known to man. It has deployed several unmanned Lunar and Mars rovers, which collect samples and relay imaging and composition data back to the OCSC, and have been critical to the study of Lunar and Martian geography and history. Through samples collected from the OCSC's Mars rovers and images collected via orbital probes, the OCSC was able to determine that there was once water on Mars, and that the potential for microbial life did exist some time in the past, and could still exist in the present. Furthermore, the OCSC has developed and deployed a large space telescope for celestial imaging, proving vital for astronomical studies.

Omniscience Initiative (1964-present)

The Omniscience Initiative was a program initiated in 1964 by the Congressional Space Force under the OCSC. It is the program which launches, maintains, and collects data from Otara's reconnaissance satellites. It is currently the only declassified military-only program within the OCSC.

Planned programs

MXM Program

The MXM Program is an OCSC initiative to land humans on the Mars developing off of technical knowledge and information gathered during the Yure and Kalei Programs. It is expected to launch officially in 2022-23, with prospective Mars landings the late 2020s to early 2030s.

Research and Earth-based programs

NEO detection

Climate

Imaging

Facilities

O6 rocket launching from PCSC
  • Hono Space Center - launch facility and control center for human spaceflight and sustained missions
  • Palm Coast Space Center - launch facility and control center for uncrewed missions
  • Kiribaya Research Center - research and development facility on the Kiribayan coast
  • Okailua Research Center - research and development facility for the Okailua province
  • Kanekita Spaceflight Academy - OCSC's civilian spaceflight academy
  • Talau Research Academy - joint civilian-military research and development facility on Talau, heavily restricted
  • Congressional Space Force Academy - military spaceflight academy, heavily restricted
  • Congressional Space Force Capital Launch Center - military launch facility, launched all reconnaissance satellites, heavily restricted
  • Makihaya Test and Assembly Center - joint civilian-military test facility and project assembly center, heavily restricted