Roleplay > Convention Centre
First Annual Aperture World's Fair
Cool101jr:
Lance and the judges each grabbed a glass and took sips, nodding their approval as Catriona jotted down a few notes. Once everyone was satisfied they made their way up to Jeong and Délisyeu.
"Great presentation, this is something I will definitely be purchasing for my own home at some point." Lance said, taking another sip of his wine. "I'm a huge wine fan and most of Revana is too, so I can definitely assure you that the Zewo Jingong will become very popular here. Keep up the great work you guys at Millenieom are doing."
Lance gave the other judges a few moments to make their own comments and ask any questions they had before making their way towards the next presentation.
Izhitsa:
Izhitsan Gypsum had neglected to tell the Aperture event organisers who would be giving their presentation, and that was because they were still working it out right up until Fair began. Initially, Kulam zi Amarmadin, the head of the company, had intended to give the speech himself, but the company’s board, who were already leery of their forays into space, and especially concerned about his conspiracist motivations for doing so, voted unanimously to block him from attending the Fair.
Thus, it fell to Akhsiku Dzhama, the scientific head of the company’s space program to give the presentation. He was dressed in his characteristic suit and bow tie, with his beard neatly trimmed for the occasion. He smiled as he saw the approaching spectators and judges.
“You have seen many wonders here today,” he said in practiced, but uncertain English, “and will see many more, I am sure, but this—” he paused, gesturing to the model Tugdut rocket beside him— “this is what progress looks like. Now of course you are thinking, ‘what do you mean, progress, this looks like 1970s garbage.’ And it is true that we are not inventing wonders like EMAC or building advanced space stations like DNSA. But when I see this rocket, I see something beautiful: the beginning of a brighter future in space exploration. Because this view of progress as the bleeding edge of engineering is a narrow view of progress—it is progress for the rich nations, for the Occident. What I would like to present to you today is a view of progress for the rest of us.
“I won’t deny that these great inventions coming out of the rich countries are helping to create progress. They show us the future of possibility, they show us what we can achieve, and sometimes they even find applications for those at the very top of global society. But progress is only made when everybody has access to these things. And that is what this rocket represents.
“Space has long been the ambition of all but the privilege of the wealthy alone—that is, wealthy nations and wealthy people. It is no coincidence that the first moon landings came from undemocratic nations, places like East Moreland, Achkaerin and Rokkenjima, because these were the nations that had the power to take enough resources from their people to touch the sky. But now we are seeing nations such as Tytor and the newly democratic Daito begin to take their places in the stars as well.
“But even this is not yet progress. Progress is when anyone from Aosta to Abydos can take part in this Great Space Revolution. It is the democratisation of space—a process which has begun because of the slow democratisation of nations across the world. These new fledgling democracies, such as Tytor and Daito, are like us in Yach, in Izhitsa. We are taking the old ideas, the old technologies which existed in the old order, and experimenting with them, and making them real for scientists, for businesses, for inventors, for everyone.
“That is what we wish to achieve in—” he murmured his company’s name, as if embarrassed to say it— “Izhitsan Gypsum. Our goal is not just to reach as far as we can, but instead to bring others along with us. The cost of launching scientific and communications satellites has long been a barrier to progress in Mundus. Our latest designs could bring the cost to launch a single 3000 kg satellite down by more than 20%, and we will be using the lessons of our next tests to improve our designs even further.
“The benefits this venture can have for the future cannot be overstated. Imagine, a world where any scientist can launch satellites to perform experiments in space, or even take probes to farther worlds. A world in which everyone is connected by satellite in any country, in any area. A world where anyone can look up at the stars and say, ‘That is mine, too.’
“This is what I see in this rocket: The first step toward the future in space: not just for the few, but for all of Mundus.”
Daitō:
After a few minutes, it would come time for the DNSA's presentation to begin. It would be about a space station, known as "Shirotsuru", set to replace the aged Kyūden IV following its deorbit on January 6th, 2022. Onto the stage walked one Jiro Asagiri, who was to be representing the Agency during the event. A middle-aged man, he had been working for the DNSA since the mid-90s as part of the team designing Kyūden IV and of course, later Shirotsuru's conversion into a space station.
"Since the dawn of time, Mankind has looked to the stars." Jiro began, speaking with an accent which seemed somewhere between a native Daitōjin and a Tytorian. "We saw our gods dance through the night sky, conjured stories of great men who traveled into the endless black. We now live in an era when such voyages have become commonplace, when even a voyage to the Moon has happened repeatedly. And yet, perhaps nothing has captured the imagination of the modern man like the idea of living in space. While many nations have undertaken such tasks, including some which are represented here, we did not come here to discuss the programs of other nations. Rather, we finally come to the project you have been waiting to hear about." He said before to a large screen behind him.
"Introducing Shirotsuru, the DNSA's answer to Rokkenjima's Adora." He spoke up as he looked at the render. "Now, you may have heard of the name back in the 90s or early 2000s, and there's a good reason for that. Following the cancellation of the UYS program, we were given authorization to repurpose parts of the program for other projects, and indeed the orbiter, Shirotsuru, was one of those elements. She has had her wings clipped, never to land again. But as the UYS Station Team has come to say, she will be the first to fly and the last to land. By launching the full spacecraft into orbit alongside its external fuel tank, she will immediately be the largest object that the DNSA has put into orbit, surpassing even Kyūden IV in both size and internal volume. By her completion, she will feature between 1,322 and 2,822 cubic meters of internal volume, with the conversion of her external tank serving as a testbed for technologies that may, one day, allow for habitats in orbit around other worlds. Her vast 'wings' will provide an additional 200 kW of power alongside the 50 kW provided by her payload bay-mounted power module.
In any case, let us begin our tour in the Shinjitsu module."
A new video appeared onscreen, thus indicating the beginning of the tour.
"Shinjitsu will effectively be a copy of the Tenmondai module aboard Kyūden IV, allowing for observation of Mundus as well as serving as one of three points on the station which will be used to control the Yari robotic arm. Unlike Tenmondai, however, it will have its systems upgraded with modern monitors and computers. It will undoubtedly come to be a staple of the station in the public consciousness. Now we will move on to what we are referring to as Node II, or Heiwa."
"In a similar regard, Node II, as with Node I, will appear functionally similar to the Multiple Docking Adapter onboard Kyūden IV, with the zenith port having a pressurized mating adapter allowing visiting spacecraft that have been mounted with an IDS or APAS-compliant docking port to dock. A similar adapter will be mounted on Node I's starboard port to allow similar functionality. The aft port on Node II will feature a permanent multipurpose module, or PMM, called Shoshiki. Shoshiki will primarily be used as storage for spare parts and supplies, as well as a personal hygeen area for visiting crews. The starboard and forward berthing adapters will remain open for both multipurpose logistics modules as well as Konnotori-2 and 3 resupply vessels to be berthed, as will the port-side berthing adapter on Node I. Like the Shinjutsu module, Node II will feature upgraded systems for use by the crew."
"As we move through the nadir port on Node 1, we enter the cargo bay and thusly the Chiheisen science module. Featuring state-of-the-art equipment for conducting multiple experiments which will, with some effort, be modular, allowing the module to be upgraded as necessary. The module will also feature the station's airlock and will be connected to a wide range of experiments within the former payload bay of Shirotsuru. Next up, we will move to the service module."
The screen changed to a new video, displaying information on the module as a slow flythrough began. Jiro would give it a moment, allowing the attendees to take in the information onscreen, after which he would speak up.
"We now find ourselves in the Shirotsuru service module, from which the station's crew can operate vital systems aboard the spacecraft. Derived from the UYS spaceplane's crew module, it will feature the second position from which the Yari robotic arm can be operated. It will also serve as one of two meeting areas from which the crew will check in with Mission Control every day. As an aside, it will provide additional storage, however, its primary task is and will remain to provide control over the station's maneuvering, electrical, and life support systems, as well as communications systems for the station as well.
With that out of the way, we shall now proceed into the station's intertank corridors before entering the main habitation module onboard the station." He said before, once again, the video changed, this time to the interior of the Habitation module in the former External Fuel Tank (EFT).
"Shirotsuru's Liquid Oxygen Tank will be converted on orbit into a joint-Habitation and Science module comparable to the service module of the Kyūden-type space stations, with the difference being that it will feature an additional 198.1 cubic meters of usable space. Being primarily a habitat, it will allow for a maximum of twelve crew members to live aboard the station, with eight sleeping on the central floor and four below. However, in practice it will start with a crew of four before eventually carrying an additional four in the future. The remaining four 'sleeping pods' will be used by visiting crews aboard the UHS orbiter as well as foreign or commercial crews. The top floor will feature additional experiments and computers similar to those in the Chiheisen module, allowing for further study by crews on orbit. The LOX tank, named 'Sōsei', is to be the first part of the EFT to be converted on orbit into a habitable space, being performed by Crew 2 sometime in either April or May 2022 and will serve as the secondary meeting spot for crews each morning. In a first for the agency, it will feature a high-definition television for the crew to take part in so-called 'communal activities' such as watching films, but it will also serve as part of the meeting spot for crews during the first check-in of the day."
The screen would then turn to a render of the outside of the station, focused on the aft of the station's former external fuel tank. Jiro would wait for the chance to speak about it and the challenges it posed for a few moments, using the time to collect himself for the next task.
"At present, the option to make use of the station's Hydrogen Tank remains in place, however, what its use will be has not yet been determined by the DNSA, and such, both options have been made available upon launch. Option one will be similar to the plan for the Liquid Oxygen Tank, wherein it will be converted into a habitable space that would effectively double the pressurized internal volume of the station immediately. This comes with challenges, however, with nearly a minimum of 280 kg of air being required to reach 10% final pressure, and an enormous 2,000kg required to meet said final pressure in the Hydrogen Tank. While doable, this would require the launch of a UHS orbiter with the sole mission of supplying said oxygen to the hydrogen tank. However, the benefits are likewise enormous, as it would, as previously stated, double the pressurized internal volume of the station, allowing for a wider range of missions aboard.
We are, as mentioned, also considering another option, one which even some at the DNSA are questioning at present. That is to cut open the Hydrogen Tank and reassemble it into an orbital hangar of sorts, allowing for the safe repair of satellites such as a planned co-orbital space telescope which is still currently in development. Naturally, it doesn't take a rocket scientist to imagine the possible complications from attempting such a task, given that it'd require first actually cutting open the object before converting the nadir segments of the module into doors which can be opened and closed, however, instead I will mention one additional benefit from it. By converting it into an orbital hangar, when it is not in use by teams servicing satellites, it will offer the ability to practice EVAs within a vacuum and test new equipment within a safe environment. Nonetheless, at this time, the DNSA is leaning more towards the former option, with a similar longitudinal floorplan stretching through it.
With that done, we will move through Node I, or Tansa, which is largely identical to Node II in its appearance, and into the Koshiba laboratory."
"Koshiba is made of six elements which are designed to work in close concert with one another. These are the Pressurized Module, set to be the largest module outside of the SM/EFT complex, the Exposed Facility, the Experimental Logistics Module Pressurized Section, Experiment Logistics Module Exposed Section, Experiment Module remote manipulator system, and Inter-orbit communications systems. We will begin with the Pressurized Module, or PM.
The PM is the core component of the Koshiba module and will be attached to the forward port on Node I. It is cylindrical in shape and will contain twenty-three International Standard Payload Racks, or ISPRs. Ten of these ISPRs will be dedicated to science experiments while the remainder will be dedicated to Koshiba's systems and storage; these racks will be placed in a 6-6-6-5 format along the four walls of the module. A science airlock will take up the forward end of the module, directly opposite to Node I, and will feature two windows allowing for viewing of the module's exposed facility.
Next up is the Experiment Logistics Module, or ELM, which is divided into two parts. These are the pressurized section, or ELM-PS, which is to be used as a storage facility, providing storage space for experiment payloads, samples, and spare parts, and the unpressurized section. The Unpressurized Section, or ELM-ES, will serve as a storage and transportation module. This module will be used to transfer external experiments to the UHS spaceplane and any other spaceplanes visiting from foreign nations.
After the ELM, we move on to the Exposed Facility, known among our engineers as the "terrace". Located outside the port cone of the PM, the EF has twelve Exposed Facility Unit ports, referred for brevity's sake as EFU ports, which attach to Payload Interface Units connectors, or PIU connectors, on Ef-equipment exchange units, or EF-EEUs. All payload experiments on the Exposed Facility will, as the name of the segment implies be fully exposed to the vacuum of space. For proper functioning of these experiments, the payload will require an orbital replacement unit made up of an electrical power system, communications and tracking, and thermal control systems. Of these ORUs, eight designed to be replaceable by the RMS while the other four will be EVA-replaceable.
Following that, we move on to the RMS and inter-orbit Communication System. The RMS aboard the Koshiba module is a 10 m robotic arm which is mounted to the module's port cone. It is designed to be used to service the exposed facility as well as to move equipment to and from the ELM, and is controlled from within the module. The RMS, which has been likened to a harpoon by some, has been given the name Mori and will feature similar grapple fixtures to those on the Yari RMS. As for hte Inter-orbit Communication System, or ICS, the system consists of a rack in the pressurized module and an antenna set to be attached on the Exposed Facility, and will be used to test communications with satellites for a few years before being disposed of.
Before we move on, we will briefly discuss the third pressurized mating adapter, or PMA, aboard the station. Docked to the nadir port on Node I, it will be the first module to be launched to the station, being designed to give enough clearance to for the UHS orbiter to dock with it. It will later be docked to Node I when it is delivered on UHS-4, requiring a brief crew transfer aboard before undocking the orbiter so that the two vessels can manipulate the node and PMA into their correct position.
Nonetheless, we now move on to the final module of the station, the Kagaku Science Module."
"Kagaku will serve as a dedicated science lab, featuring ten ISPRs for science payloads. These ISPRs will fill a multitude of roles ranging from conducting fluid physics research to research on plants and small invertebrates in microgravity, alongside many other experiments. Externally, plans are in place to install a solar monitoring observatory and a series of atomic clocks on the outer hull of the module. The module will also feature the third and final point where the Yari RMS can be operated, being designed as a backup in the event that either fails mid-use prior to repairs. With that complete, we will move on to the final part of our tour, the Yari RMS that you have heard so much of today."
"Yari, or the Space Station Remote Manipulating System, is a robotic arm that will launch alongside the SM/EFT complex. The SSRMS will, unlike many robotic arms used in the past, be capable of "walking" alongside the outer hull of the space station; this is achieved by the arm having a grapple fixture on both ends, allowing it to draw power from any grapple point which will offer it. In its initial operating capacity, this will involve it being able to move to various locations within the payload bay and along the Shirotsuru Power Module, or SPM, located within said bay, while plans have been set for a series of grappling points to be installed on the second and third missions to the station. A boom will be mounted in the payload bay in order to extend the arm's reach when assisting in EVAs.
With that segment completed, we conclude our tour of Space Station Shirotsuru. However, before I conclude this presentation, I would like to impart a few words. Although this may seem like the future, come twenty years, we will look back on the achievements of today as but stepping stones to their present. The discoveries they make will be built on the effort we put in today, as those we make are built on the achievements of the past. So it has been since the dawn of time. But if we do not move forwards, become stuck in our ways, then what future can we look forwards to? Is the fate of mankind to be trapped within our planet's gravitational sphere of influence or to break it and to travel to the stars? I leave this station as our gift to the generations to come, so that it might inspire them to surpass us in ways we cannot imagine. Thank you, and have a good night." Jiro finally concluded before walking off stage. The attendees would then have several minutes to explore the stall before they would have the chance to view whatever presentation was to come next.
Achkaerin:
After a few minutes the stage was set for the next presentation three podiums each holding models and screens behind them, stepping out onto the stage was Nicola Fernley, she waited a few moments before smiling "Good afternoon ladies and gentlemen my name is Nicola Fernley." she paused "A well known science fiction franchise has an opening monologue that calls space the final frontier, but these are not the voyages of the starship Enterprise these are the latest developments out of the Achkaerin Space Agency, please enjoy."
"This is the Oracle Space Telescope, successor to Theia Space Telescope and if you want my cousin Caitlin's opinion the unholy offspring of the Death Star Weapon and an Imperial Star Destroyer, but then she is a Star Wars fan. The Oracle's mirror consists of 18 hexagonal mirror segments made of gold-plated beryllium which together form a 21 foot diameter mirror, that is getting close to roughly three times the diameter of Theia's mirror, but the progress doesn't stop there - Theia has an optical range of near ultraviolet, visible, and near infrared spectra registering between 0.1 to 1 μm. Oracle will observe in a lower frequency range, from long-wavelength visible light through mid-infrared so between 0.6 to 28.3 μm, which will allow it to observe high redshift objects that are too old and too distant for Theia to observe, and here we're talking about formation of galaxies, supernova's, the study of potentially habitable exoplanets. We're talking about the future. The mirror itself is a three-mirror anastigmat, which makes use of curved secondary and tertiary mirrors to deliver images that are free of optical aberrations over a wide field. In addition, there is a fast steering mirror which can adjust its position many times per second to provide image stabilization.
Oracle also features an integrated science module with several instruments - first the NIRCam, short for Near InfraRed Camera this is an infrared imager which will have a spectral coverage ranging from the edge of the visible at 0.6 micrometers through the near infrared at 5 micrometers. There are 10 sensors each of 4 megapixels. NIRCam will also serve as the observatory's wavefront sensor, which is required for wavefront sensing and control activities. Second, over the same wavelength range, NIRSpec or Near InfraRed Spectrograph, will also perform spectroscopy. The NIRSpec design provides three observing modes: a low-resolution mode using a prism, an R~1000 multi-object mode, and an R~2700 integral field unit or long-slit spectroscopy mode. Switching of the modes is done by operating a wavelength preselection mechanism called the Filter Wheel Assembly, and selecting a corresponding dispersive element, prism or grating, using the Grating Wheel Assembly mechanism. The multi-object mode relies on a complex micro-shutter mechanism to allow for simultaneous observations of hundreds of individual objects anywhere in NIRSpec's field of view. There are two sensors each of 4 megapixels. Next MIRI or Mid-InfraRed Instrument will measure the mid-to-long-infrared wavelength range from 5 to 27 micrometers. It contains both a mid-infrared camera and an imaging spectrometer, MIRI features similar wheel mechanisms as NIRSpec. Finally FGS/NIRISS or Fine Guidance Sensor and Near Infrared Imager and Slitless Spectrograph, is used to stabilize the line-of-sight of the observatory during science observations. Measurements by the FGS are used both to control the overall orientation of the spacecraft and to drive the fine steering mirror for image stabilization. The Near Infrared Imager and Slitless Spectrograph or NIRISS module for astronomical imaging and spectroscopy in the 0.8 to 5 micrometre wavelength range. Because the NIRISS is physically mounted together with the FGS, they are often referred to as a single unit; however, they serve entirely different purposes, with one being a scientific instrument and the other being a part of the observatory's support infrastructure. It should also be noted that NIRCam and MIRI feature starlight-blocking coronagraphs for observation of faint targets such as extrasolar planets and circumstellar disks very close to bright stars. We intend to launch Oracle in early 2022.
"This is our Squirrel Rover concept, so named thanks to a high school naming contest, it's mission sounds fairly simple to be a rover carrying out scientific study on the surface of Ishtar. In reality not so simple Ishtar is one of the most inhospitable places in our solar system, tremendous temperatures and atmospheric pressures would render most things useless, what makes the Squirrel special is that it's powered only by the wind. The mechanical nature of the legs overcomes we believe the trouble that would be encountered using conventional motors. It's an interesting lesson that simplicity can succeed where complexity fails, whether that will be the case is yet to be seen but we're hopeful."
"Finally allow me to introduce you to Morph, this is something we at the Achkaerin Space Agency are really excited about, founded upon the swarmbot theory and principles the idea is actually very simple, put one of these spheres on a celestial body, it breaks apart and surveys the area using its hive mind to problem solve. Put enough of them on said celestial object and you have enough of these things to map and investigate the whole body in question, for us at the Achkaerin Space Agency Morph is a central plank of our Star Map project, an attempt to map our solar system on a level not seen before, we're a long way off being able to put a human on a celestial object except the moon but we can still use technological innovations like these to explore the stars. I began by saying that these aren't the voyages of the starship Enterprise and again they're not but the mission statement of the Achkaerin Space Agency will be familiar to fans of that franchise, words coined by the man you could call the grandfather of our agency the late Jerry Bauer - to seek out new life, to boldly go where no one's gone before. These three things you see today along with so many other things some we've seen today, some we haven't are all steps, footprints in the sand as we all boldly go where no one has gone before. Thank you."
Cool101jr:
The Judges watched each of the presentations with interest, Alan showing deep interest upon hearing the Izhitsan goal was to lower the cost of space flight and make it accessible to all. He applauded their efforts and made sure to let them know that Aperture would be willing to help in their endeavors.
He was impressed by the uniqueness of Daito's presentation, a perfect way to make Space station while still keeping cost down and reusing things that would have gone to waste. He offered to introduce Jiro to Ronald Hughes, owner of Nebulus, who would likely be interested in setting up some sort of resupply contract with the DNSA.
Upon reaching the Achakerin presentation, 2 of the Judges had to keep their bias down, Catriona for being from Achkaerin, and Lance for Achakerin pretty much being their sister nation. Lance found all of the presented inventions fascinating, but his favorite was Morph, he found it adorable, and thought the applications for it were practically endless. He decided to talk to Nicola after the presentation and offer to purchase some of the drones for Aperture whenever they become available to the public. He had some many ideas for what they could be used for.
The last presentation of the Fair was Revana's own. The group approached a rather small screen with only a podium and a large television screen mounted above the stage. After everyone had a chance to reach the stage, Ronald Hughes walked in front of the crowd with a large smile on his face.
"Good Evening ladies and gentlemen. We at Nebulus Aerospace are overjoyed to have you with us tonight on a very special night for not only me, but for my nation, and for the future of space exploration. This Company was founded to revolutionize space technology, with the ultimate goal of enabling people to live on other planets. I have ambitious goals for my company, goals many keep calling me crazy over. I WILL send our first crewed flight to orbit by September of next year by the latest. I WILL land Revanans on the moon by 2024, and I WILL have the first person on Nergal by 2030. You may call me crazy but I feel we need that sort of crazy to enable these out of this world goals. And all of this starts with tonight..." He steps back and gestures grandly to the TV, which turns on revealing a live feed from a launch pad showing a large rocket, clouds of vapor coming from the hull.
"The Alpha 2 rocket, carrying a lead ballast test payload designed to simulate a capsule carrying 7 passengers. Mission codenamed Atlas, as this launch is the foundation of all other launches from here on out." He says as the countdown at the bottom of the screen reaches 45 seconds.
"Ladies and gentlemen, I hope you are ready to witness the birth of the future. Enjoy." He steps back but doesn't turn off his mic, instead he begins speaking again but hisvoice comes from the live stream on the TV. "Jordan are you ready?"
"RASA is standing by, all green here Ronald." Lord Minister Jordan Rayne responded from RASA mission control in Isen City.
"Gary, you guys ready?" Ronald said.
"We are a go here." The voice of Gary Hale said from the Mission Control of ASA in Achkaerin.
"Nebulus Control, We are a go." Ronald said one last time before turning off his mic.
"Copy that, Atlas launch is a go. T - 10 seconds." Said the female voice of the the pad leader at the Isen city launch pad. "5, 4, 3, 2, 1... and we have liftoff of the first of many Nebulus Launches. Go Atlas and let's go Alpha 2."
On the screen everything shook as the liquid oxygen ignited the RP-1 kerosene and set the nine engines at the bottom of the launch vehicle alight with flame. Slowly but surely the rocket rose from the platform gradually picking up speed as it rose up into the night.
The rocket rose into the distance arcing westward getting more horizontal as it made it's gravity turn, before suddenly twisting up suddenly with such force that the second stage broke lose of the interstage and fell back from into the first stage from the force, the explosion lighting up the screen a loud back hitting the camera about 20 seconds afterwards.
Ronald look at the screen stunned for a moment, before listening on his headpiece then stepping back to the center of the stage.
"Well these things happen in the space industry, part of me was expecting some sort of failure given it was our first launch. Of course this won't keep us down, keep an eye on Nebulus everybody, we're only getting started. Thank you for your consideration." He stepped away from the stage to answer the judges questions.
After an hour break the crowd gathered around the same stage as before as the judges walked up onto the stage.
"Ladies and gentlemen, we have seen all of the presentations of the show, and have asked all of our questions and taken all of our notes. We will now explain all of the categories that has a qualifying technology in it. Tomorrow starts the general public fair, and at 7 pm is the beginning of the Private Ball held in the Imperial Palace for all foreign dignitaries. At the end of the ball we will officially announce the winners of each category and present the awards." Lance explained before stepping back and allowing Catriona to take his place holding a card in her hand.
"The Categories are as follows: Best in show in which all are qualified and will be the overall winner of the Fair. Most Advanced in which all are qualified and dictates the high level of technology out of everyone here. Most Potential in which all are qualified and dictates which presentation is the most likely to continue on through time, evolving and growing, timeless. High Chance for Peace in which all are qualified and dictates which tech promotes a culture of peace and unity, Space Exploration in which Izhitsa, Daitō, Revana, and Achkaerin are eligible and dictates which presentation has the most potential towards advancing humanity's goals of space exploration." She said before stepping back and Martin stepping up.
"Thank you all for joining us on this amazing showcase of the future, and hope to see all of you continue to advance humanity towards the greatest potential it can achieve." He said and the three judges made their way off the stage, bringing the showcase to an end.
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