Exploratory Moon Mission Archimedes

 

United Space Technologies UST - Moon scientific exploration data for lunar crater Archimedes is delineated by Humanoido, mission specialist. Archimedes is one of several lunar targets selected for Electrodynamic Dynamonic Dynotronic exploratory missions.

Exploratory Moon Mission Archimedes
Mission data for the exploration of crater Archimedes is cubed to delineate parametric identities including fine detail, over a dozen class craterlets, cast and lighting variances. Electrodynamic Lunar missions are conducted by Humanoido, astronaut and founder of United Space Technologies and SPACE1. Crater Archimedes is one of several relatively smooth floor regio landing sites being studied and up for selection for the next Exploratory Moon Mission by United Space Technologies. Remaining site selections include the large crater Ptolemaeus and Plato which are scheduled for exploration and/or cubing. Maria may not be considered at this time due to lacking parametrics for exploratory missions unless otherwise noted.

Exploratory Moon Mission Plato

https://space1usa.blogspot.com/2022/12/exploratory-moon-mission-plato.html

Exploratory Moon Mission Plato

United Space Technologies UST - Moon scientific exploration data for lunar crater Plato is delineated by Humanoido, mission specialist. Plato is one of several lunar targets selected for Electrodynamic Dynamonic Dynotronic exploratory missions.

Exploratory Moon Mission Plato
Mission data for the exploration of crater Plato is cubed to delineate parametric identities including fine detail, over a dozen class craterlets, cast and lighting variances. Electrodynamic Lunar missions are conducted by Humanoido, astronaut and founder of United Space Technologies and SPACE1. Crater Plato is one of several smooth floor regio landing sites being studied and up for selection for the next Exploratory Moon Mission by United Space Technologies. Remaining site selections include the large crater Ptolemaeus and Archimedes which are scheduled for exploration and cubing. Maria may not be considered at this time due to lacking parametrics for exploratory missions unless otherwise noted.

New Name Space1 Dynamonic Star Gate

New Name Space1 Dynamonic Star Gate for Space Travel
The Space1 Dynamonic spacecraft is now named the Space1 Dynamonic Star Gate

Over at Otis Astro Imaging, Humanoido captured this armchair view of Jupiter, seen above during processing, and the moons in the Jovian system. Humanoido is planning a personal private space mission to Ganymede on board the newly named Space1 Dynamonic Star Gate. This will likely happen after a few more trips to the southern terminator of the Moon to improve the systems and prepare for journeys to other solar system objects. We believe these space trips will supplement missions made by starship, superheavy, and Elon Musk SpaceX plans.

Included at the link are images of Jupiter, Ganymede and Europa during Thursday, November 4th, 2021.

https://otisastro.blogspot.com/2021/11/armchair-astronomy-astronomical-imaging.html

Telescope Battery for Mission Tracking

Telescope Battery for Mission Tracking

Humanoido has implemented a battery of tracking telescopes for upcoming space missions

Tracking telescopes include a wide range of apertures from about 3-inches up to a 14-inch catadioptric. Additional telescopes in the enhanced megalithic range include 925-inch and 1,400-inch aperture telescopes.

Styles include refractors, reflectors, schmidt cassegrains, and catadioptrics. Optical tracking telescopes are powerful enough to provide imagery on the spacecraft from launch to the entrance into deep space. Included are cameras and special mounts for guiding on spacecraft. There are roughly 20 telescopes total in the tracking battery.

Located on the far side of the Earth in the Asian Arena mid range to the equator, the tracking battery of telescopes look out over the Pacific Ocean where missions are launched, as seen in this globe map. Tracking telescopes have a wide spectroscopic range from the ultraviolet to deep infrared heat signatures.

Collosal Dynanomic Slipstream Dimension

Colossal Dynanomic Slipstream Dimension
Traveling into the Colossal Dynanomic Slipstream Dimension will yield a great many surprises as SPACE1 has never done this before.

The best we can do at this time is to develop and run a simulation of a Jovian Ganymedian human landing to peer into the visibility keyhole of the Dynanomic Dimension. A keyhole camera view is designed to minimize radiation and spectral effects.

DEVELOPING A SIM
We have developed a SIM potential view of what might be returned from a Jovian Ganymede moon mission using a kind of processed Dynanomic Vision inside the realm of this dimension.

PROCESS
The view is passed through light time in Jovian Ganymedian space. The first view is a limited keyhole view and other views that follow estimate images within Jupiter's great magnetic fields. Ganymede also has a metal core and creates magnetic lines of force that will affect the dimensional imagery obtained from the Dynanomic processes.

TESTING
More tests are needed beyond the sim programming. In the final SIM view we see a glitch caused by a gravity radiation streak from the planet Jupiter. Corrections for radiation spikes and pulsations of a gravity field are an unknown process at this time.

CHALLENGES

The best SIM result is the keyhole technique, however we are also looking at a more involved global body imaging technique across the entire moon that can hone in a particular segment of Ganymedian detail at the landing site. Returning high resolution imagery will be the most challenging in this very remote cold environment.

LIMITATIONS
Probably the Jovian Ganymedian system is the smallest most remote system that can be handled at this time, without developing a variety of new techniques. Returning high resolution imagery will be the most challenging in this very remote cold and electrically noisy Jovian environment.

ADDITIONAL ILLUSTRATIONS
https://humanoidolabs.blogspot.com/2021/05/collosal-dynanomic-slipstream-dimension.html

The Ganymede Mission

The Ganymede Mission

SPACE1 Dynamo technology is massive

however travel in the Dynanomic slipstream is fast and safe compared to other systems, and enables human journeys to far away places in the Solar System. SPACE1 is therefore considering a mission to Ganymede, the largest moon in the Solar System in orbit around the planet Jupiter.  

SPACE1, after 3 years, continues to prep the Dynamo spacecraft for journeys into the space of deep Solar System, where no man has trod before. The Boots on Ganymede Project is forthcoming as new instrumentation is being developed/ installed for the mission. At 391 million miles distance from the Earth, ten times farther away than Mars, the mission to put boots on Ganymede is no walk in the park. At conventional rocket speed, it would take 6 months X 10 = 60 months/12 months per year = 5 years one way trip to go to Ganymede. With an impending 5 years more for the trip back home, such a trip may be considered impractical for human space flight.

GANYMEDE Humans have only walked on the Earth's Moon surface, and no other moon in the solar system. Gathering data from a Ganymede mission will be extremely valuable in the scheme of moving out into the solar system.

Test tube babies are not needed when traveling in the solar system using the powerful Dynanomic Dynamo space travel system by SPACE1. The system can cut conventional space travel down from ten years to less than a day.

TIME TRAVEL PARADOX

Any time you travel faster than a tenth the speed of light, you will undergo space time relativity and relative time travel. Enter SPACE1 Dynanomic systems and the dimension with the Dynamo—travel at intended maximum light speed will take up to 45 minutes one way to reach the Jovian moon Ganymede and essentially instantly arrive in the past when you begin the journey. By staying the first 45 minutes, the past will catch up to the present at which time the relative progression of time will increment normally towards the future. 

SETTING UP G-BASE

Once arrived in the Ganymedian system, humans will land on the surface of Ganymede through technology. Ganymede is the largest moon in the Solar System and has gravity greater than the Earth's Moon. The presence of humans on Ganymede will be in Dynanomic dimension therefore the appearance of the surface and nearby Jupiter will be strangely dazzling sights to behold, study and interpret, unlike anything seen before.

TRAVEL IN STYLE WITH DYNANOMIC

Travel in the new Dynanomic Dimension is unlike conventional space travel in every way. There is no need to raise test tube babies for the long journey to the stars. The Dynanomic slip stream is an ultra fast super highway in space without the impending g-forces and radiation hazards. Ganymede, has a diameter of 3,273 miles, comparable to the Earth's Moon at only 2,159. With more real estate, unlike the Earth's Moon, Ganymede has a subsurface ocean of water and resources INSITU for making rocket and spacecraft fuel. It remains an interest focal point as a Solar System fueling station and a remote outpost at the far reaches of the orbital planetary solar system.

https://space1usa.blogspot.com/2021/05/space1-preparing-next-launch.html

https://space1usa.blogspot.com/2021/04/multiplex-reality-spacecraft.html

https://space1usa.blogspot.com/2021/04/ride-solar-system-stars.html

https://space1usa.blogspot.com/2021/04/new-e-dynamo-spacecraft.html

https://space1usa.blogspot.com/2021/03/new-electrodynamic-galaxy-class-safety.html

A Case for a Moon Colony

 ABOVE: Moon imaged by Humanoido marks potential location for a lunar colony.

A CASE FOR THE MOON

a Small Lunar Base

by Humanoido

Possible return to the Moon to develop a lunar colony

If I put a small high tech manned base on the Moon there's no need to wait 4+ years for other lunar missions. The project may qualify for NASA government grants. Speed of lunar base completion may be more conducive to health conditions.

The Moon is closer and communications is faster, in addition to physical parameters. The existing SPACE1 craft and technics are space hardened and radiation proofed. Occupy Moon may cost less and take less time to develop. Many of the Moon tools are already completed from previous SPACE1 missions. The landing site and home of the Moon Colony is already established.

Humanoido is a trained and lunar experienced astronaut and can lead the mission expedition. From the relative distance of the Moon, a trip to the Moon or home to the Earth is extremely fast. Weekend tourist Visas could become popular with the public. Other sharing partners could be found from China, Germany, Taiwan, Japan, USA, UK, Philippines, Indonesia, and South Korea.

Some Applications

* Mapping

* Habitation

* Exploration

* Telescopic Astronomy

* Developing larger bases

* Tourism

* Science

* Lunar promotions

* Observation post in the solar system

* Developing technology

* International cooperation

Space1 Rocket Season Prep

Rocket launch for illustrative purposes only. The actual launch will take place in the Pacific
Ocean located thousands of miles from the USA.

Massive Rocket Prep
SPACE1 is preparing multiple massive rockets for upcoming space launches as the weather is coming out of the Monsoon period and skies are beginning to clear.

SPACE1 is ramping up programs for rocket space launches regarding the Moon and Mars. The exact details of the programs depend on the weather and the orbital conditions. Schedules will be revealed as they are determined.

Space1 Trip to Mars

Using its massive EM rocket spacecraft, SPACE1 Industries expects to send a human to the Moon,
Mars and other locations in the solar system like Ganymede around Jupiter.

Space1 Trip to Mars
Will SPACE1 go to Mars?

We are grand bold explorers anxiously awaiting trips to the Earth's Moon, Mars, and the Solar System (Jupiter and Ganymede). It all depends on working technology and the weather. Weather will need to remain simultaneously good on the Earth and Mars to make the trip. This entails Earth weather, Solar weather, Martian weather, and space weather.

Thus far, the manned Moon landing was cancelled several times therefore missing the windows of rocket flight opportunity, due to fierce weather from the Monsoon period at the Pacific Ocean launch site. This weather has yet to clear and continues to postpone rocket flights to the Earth's Moon, Mars and other moons in the solar system. Several typhoons have passed and the weather continues to remain unstable after months and months of rocket preparations. When the season passes, SPACE1 will resume rocket flights into space.

Space1 Military Apps

Important military operations on Jupiters ice moon Europa, or other Galilean Moons, are designed
for safety using a SPACE1 Safety Spacecraft and Human Augments

SPACE1 Military Apps
The technique of a Safety Rocket has an abundance of military applications

The SPACE1 Safety Rocket SR is the world's only safety rocket that can super launch an augmented Space Force human into the line of warfare annihilation and complete destruction, and safely return the officer to command center along with military secrets.

SRs can have different battle missions into enemy territory. As the AH Augmented Human has advanced Beam out technology, in cases of total annihilation, the officer is beamed out safely. This protects Space Force secrets which are beamed out with the space augment. Techniques and designs are protected and only available for military review at significant purchase cost contracts.

Space1 Supplemental SpaceX Mission

The first Mars mission may have a cooperation between Humanoido's SPACE1 and Elon Musk's
SpaceX. The cooperation may involve a SPACE1 Safety Rocket inside Starship that launches an
Augmented Human to the surface of Mars as a safety precursor to colonization. Humanoido said
there is no cost charged to space agency as this is strictly a humanitarian mission to benefit all
mankind.

SPACE1 to Supplement SpaceX Missions
Consider a hypothetical yet potential situation. SpaceX has a Starship in orbit around Mars for the first manned landing. While still in a martian orbit, the hatch opens and out pops a manned SPACE1 Safety Rocket, sent down to the surface first.

The mission is safe, preliminary, exploratory, manned, a precursor to the colonizing volume of people about to go down to Mars and begin construction of a new world.

Like a safe probe, the SPACE1 rocket speeds to the planet's surface, and the first human will send back the data needed to help ensure the safety of the entire "awaiting for departure" colony. SPACE1 envisions many humanitarian space missions to benefit mankind in the exploration of space and the colonization of new worlds.

Space1 In Line Human Augmentation

SPACE1 - Get in Line for Human Augmentation
Six years of developing space technology and inventions has led to what some claim witness to the most advanced space program in the world. Emerging from this revolutionary series of space augmented species is a radical new and ultimately safe space travel.


The sooner space enthusiasts get in line for their SPACE1 human augmentation transformations, the sooner they can prepare for their space denizen launch debut missions.

Developed only by SPACE1 for the commercial space industry, species augmentation is a viable way to prepare for more effective, efficient, and enjoyable space flight.

One pertinent aspect is the development of Human Augments. Human Augmentation has improved significantly since the historical, brutal and archaic early years. Procedures today are focused on noninvasive techniques with rapid development of new DNA and genetic modifications and their resulting new functions initiated by a different methodology that rapidly fuses a new being.

Get in line on the waiting list to have the procedures performed and tested... and be ready for joining the next batch of Human Augments going into space. For more information and scheduling, contact SPACE1 Headquarters. Currently with modern SPACE1 safety missions, all humans are required to undergo the space Augmentation procedure. Augmentation is simply tied directly into the Safety Program for long and short term spacefaring 100% survivability. Some restrictions may apply. Augmentation, as performed by space technological and test facilities at SPACE1, is currently free of charge for a limited time. A small fee is charged to cover the equipment and technology components.

Space1 Mars Mission Safety

Elon Musk has a proposed future SpaceX Starship & Superheavy booster as seen in this spectacular
illustration of chromed rocket steel by Gravitation Innovation.

Choose your rocket mission design carefully
SPACE1 Safety Mission to Mars
While SpaceX is preparing the development of Starship and Superheavy to land supplies and colonists on Mars, the risk of such a mission is very high. According to Elon Musk, "people will die."

SPACE1 is also preparing for a mission to Mars, with a different approach using its Super Safety Rocket that protects the life of humans throughout all parts of the mission through the use of Human Augments.

— choose your rocket mission design carefully, your life may depend upon it —

How human-safe is a SPACE1 Mars mission?

* 100% protection from solar radiation
* 100% protection from deep space radiation
* 100% protection from rocket anomaly
* 100% protection from long term space travel biological effects
* 100% protection from dangers of landing
* 100% protection from reentry

Protection also includes the effects of temperature, pressure, vacuum of space, poisonous air, G force, and other effects.

Space1 Augment Transformation
https://space1usa.blogspot.com/2019/09/space1-space-augment-transformation.html
Space1 Augment Autonomic System
https://space1usa.blogspot.com/2019/09/space1-augment-autonomic-system.html

Space1 Augment Army

SPACE1 Augment Army
SPACE1 is creating a new army of Augments for use as space-faring entities of intelligence on unspecified missions and long duration space journeys.

The first batch of Space Augments is hot off the manufacturing line and in the test phase. Augments hold the key to a new kind of space travel, whether it be long duration space flight, the endurance of extremely harsh conditions, or other space effects such as shrinking and alternate dimensions.

Another way to create an army of Augments is by cloning. These early experiments used humanoid robots.
https://space1usa.blogspot.com/2017/08/space1-first-flights-humanoid-clone-army.html

Space1 Moon Wrist Radio

1st Moon Wrist Radio

Moon image by Humanoido

The First Moon Power Wrist Radio
SPACE1 has created a wireless Moon Wrist Radio, worn like a high technology watch, using a leftover mix of matching modules.

Invented by Humanoido, the wrist radio is designed to be worn by a Moon astronaut to support a manned Lunar Landing Mission. The device can historically record the spaceflight to the Moon and show live images and live video by direct telemetry transmission.

The communications wrist device has components to include a built-in tuned frequency pipe antenna, portable power source with charger, wireless radio receiver, high resolution color display TV screen, and controls. Supporting devices to include a micro-miniature Moon Camera, wide angle lens, wireless radio transmitter, DVR camcorder, multi signal channels, right hand circularly polarized antenna, power source, power setting circuits, charging system, cabling, and controls.

The Moon Wrist Radio is worn like a watch by the astronaut. A separate micro-miniature camera part of the system records live images of the Moon as the mission proceeds. The live feed video and any audio is recorded to to a tiny micro SD card and motion video is simultaneously transmitted to the wrist device. The system has many functions. 1) Monitor the rugged lunar surface  2) Display updated parametric spacecraft info  3) Keep eyes on any target  4) Record various sub missions  5) Record the flight to the Moon  6) Safely watch apparitions within the vacuum of space 7) Check the condition of space vehicles 8) Rapidly aim & shoot space phenomena 9) Serve as a remote eye & ear for a space cyborg 10) Convenient eyes on a space pod and 11) A relay for a TV/audio signal.

Space1 Taking Man to the Moon

Singularity Observatory

Taking Man to the Moon
SPACE1 Industries is a little known private space venture started in 2014 with the goal of safe low cost space tourism. It now has new expanded goals of exploration of the Moon and Mars with super technology and its cache of Safety Rockets - Rocket X with the Herculean Engine and the Electrodynamic Rocket with the Electromag Drive.

Space1 just returned from the Moon in March this year in the 15th successful flight of the Electrodynamic Rocket. This year SPACE1 is working hard on extreme technology lunar missions, with the ultimate mission of landing a man on the Moon, potentially of which could happen this year in 2019 if all schedules stay up to date. Just completed in March 2019, SPACE1's successful manned fly-by the Moon explored the South Pole and gathered more data for the upcoming manned landing.

Index Moon South Pole Mission

Index
Moon South Polar Mission

This index covers posts made in regards to SPACE1's Manned moon South Polar Mission.

Index Moon South Pole Mission
https://space1usa.blogspot.com/2019/04/index-moon-south-pole-mission.html

Asiatic Pacific Ocean High Technology Space Processing Lab & Center for Advanced Spacecraft Data Analysis
https://space1usa.blogspot.com/2019/04/space1-new-opening-of-space-processing.html

SPACE1 Moon Polar Orbiter Mission Sliding Spectroscopic Analyzer
https://space1usa.blogspot.com/2019/04/space1-moon-polar-orbiter-mission.html

SPACE1 Moon Polar Orbiter Mission Sliding Spectroscopic Analyzer
https://space1usa.blogspot.com/2019/04/space1-lunar-south-polar-mission-results.html

Around the Moon in 80 Minutes - SPACE1 Lunar South Pole Mission Results

https://space1usa.blogspot.com/2019/04/space1-lunar-south-polar-orbiter.html

Mission Cube
https://space1usa.blogspot.com/2019/04/space1-lunar-orbiter-flyby-cube.html

First Photo
https://space1usa.blogspot.com/2019/04/space1-lunar-polar-orbiter-first-photo.html

Lunar Polar Orbiter Launch
https://space1usa.blogspot.com/2019/03/space1-lunar-polar-orbiter-launched.html

Moon Landing update
https://space1usa.blogspot.com/2019/03/moon-landing-update.html

Moon Index
https://space1usa.blogspot.com/2019/03/space1-index-moon.html

Left: Processed photos taken during the lunar south polar orbiter mission. All photos and data processing by Humanoido at the new Asiatic Pacific Ocean High Technology Space Processing Lab & Center for Advanced Spacecraft Data Analysis

Space1 Moon Polar Orbiter Mission Sliding Spectro

SPACE1 Moon Polar Orbiter Mission Sliding Spectroscopic Analyzer

SPACE1's Moon Polar Orbiter Mission has returned an abundance of data and information regarding the lunar regolith and topography. In raw form, information is contained herein but must be extracted through intricate processing. This data extraction is vital for the upcoming potential high technology Manned Moon Landing by SPACE1.

Humanoido, at the Asiatic Pacific Ocean SPACE1 High Technology Space Processing Lab & Center for Advanced Spacecraft Data Analysis, has created a processed Moon film strip of the South Pole using his new Sliding Spectroscopic Analyzer invention.

The processed and created mini video shows a series of changing spectral color images for further analysis. The video is made from spectralized images and strips that are converted to gif formats, then concatenated into a movie depicting the sliding and changing spectral temperatures and other data showing the lunar south pole.

The Sliding Spectroscopic Film Analyzer is one of the most useful inventions for extracting an abundance of relevant data from the Moon. The film strip at a glance is a spectromagnetic radiative reference map of thermal iridescence excitability ions, forward viewing temperature heat maps, lunar reflective albedo detail extractions, latent hydroxil distribution with predicated water mapping analysis, and finite shaded relief area mapping.

Continuing data extraction includes chromatic, spectral, albedo, temperature & heat positioning, ambient lighting, crater wall & depth electromagnetic bombardment, and the ability to include communications from the surface.

Space1 Lunar South Polar Results

Around the Moon in 80 Minutes - SPACE1
Lunar South Pole Mission Results


SPACE1 processing Orthographic projection image - Moon’s South Polar region constructed from data returned by the Lunar South Polar Mission to the Moon.

Astronaut Humanoido's high tech Moon mission was 80 minutes long - a reference alluding to Jules Verne adventure novel, Around the World in Eighty Days.

SPACE1 Industries' modern take is a true story, based on high space technology in the 21st Century that has taken astronaut Humanoido around the southern portion of the Moon in 80 minutes. The processed data presented here is rich in information for humanities' return to the Moon. Images are combined and step processed to create a larger view of the Moon's south pole region. The color image represents the thermionic heat signature of craters. The cube represents the projection of the south polar region, homogeneously fit onto the faces of this dimension.

The south polar lunar region has very interesting craters of which the low obique sunlight can either fill a shallow crater or never reach the floor of a deep one. The deepest craters that never receive sunlight have undoubtedly preserved the primordial pristine conditions of the lunar surface, including deposition of water from ancient comets. It's for this reason we are interested in the south polar region of the Moon, for the grand step of humanity, an outpost on the Moon, a telescope base kept in eternal darkness, water for human survival, energy and rocket fuel, colonization, mining, and exploration.

Space1 Lunar South Polar Orbiter Mission Results

Humanoido and rocket drive

SPACE1 Lunar South Polar Orbiter Mission Results Sets New Records!
Space1 delivers. Back to the Moon in 2019! Fantastic celebration continues into the night over at the Pacific Ocean SPACE1 Mission Control for Rocketry and Space Sciences, with the grand success of SPACE1 Industries Lunar Polar Orbiter Mission!

Breaking News! Thurs., April 4th, 2019
SPACE1 Global News Agency reports..

The manned mission to the South Pole of the Moon was an applauded great success on Sunday, March 31st, 2019. The fantastic Moon technical fly-by was achieved by Astronaut Humanoido and the Electrodynamic Safety Rocket with the extremely reliable Electromag drive. Raw data is processed by the SPACE1 Pacific Ocean Space Processing Laboratory and the Center for Spacecraft Data Analysis.

During mission analysis, color is handled by the interferometric color machine and applied to the raw data. Raw data is processed and presented in 1) raw, 2) film, 3) disk, 4) photo and 5) 3d cube. Processing of scientific mission’s raw data helps create many useful analytical Moon sets - spectromagnetic radiative reference maps of thermal iridescence excitability ions, forward viewing temperature heat maps, lunar reflective albedo detail extractions, latent hydroxil distribution with predicated water mapping analysis, and finite shaded relief area mapping.

— The Asiatic Center for SPACE1 Advanced Space Sciences broke out the rare vintage Ming Dynasty brandy cache for celebrating the spectacular event! —

Data and analysis returned from the mission is rich in detail for future landing programs, establishing lunar colonies, mining on the Moon, generating rocket fuel, and conducting Moon activities such as touring and vacationing. The data is highly useful towards developing and testing high technology flight parametrics for the upcoming Manned Moon Landing by SPACE1 Industries.

— SPACE1 Industries: 1st to fly an astronaut to the Moon in many decades! —

The SPACE1 Lunar South Pole Orbiter is Electrodynamic Rocket Mission E15 with the Electro Mag Drive. Previous manned EM rocket mission E14 took place Tuesday, March 12th, 2019. This mission also tests a completely new high tech lunar lander camera and various new techniques for processing the data. The presented SPACE1 data formats are in film reel, image disk, proportional photo, sequential cube, and raw image.