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Transcript
00:00GYROSCOPIC TRANSPORT
00:12In his vision for the future of urban transportation,
00:15gyroscopic transport, Dahir Insat aims to completely alter the way people navigate through cities.
00:22These solar-powered, disc-shaped cars use flywheels to float above traffic on stilts.
00:28The multi-tiered transportation system has the ability to lessen pollution and traffic jams.
00:33Travelers can anticipate either cramped subway-style seats or plush pods outfitted with sofas and televisions.
00:40Although the specific cost has not been made public,
00:43the idea's positive effects on the economy and the environment
00:47indicate that it may prove to be an economical choice for urban areas in the future.
00:52The design prioritizes user comfort and integration with urban settings
00:57with the possibility of working in tandem with pedestrian spaces.
01:01This groundbreaking form of transportation is still in its early stages,
01:05but it has the potential to revolutionize urban transportation in a sustainable and efficient way.
01:11in the future.
01:15Renault Float
01:17An innovative concept car that blends cutting-edge technology with a future design,
01:21the Renault Float in Motion is a vehicle that mixes the two technologies.
01:25Due to the fact that it has a distinctive spherical shape,
01:28it is able to move in any direction without any difficulty.
01:32The outside of the car is constructed out of a material that is translucent
01:37and has the ability to change color and transparency,
01:40which provides an appearance that is both dynamic and adaptable.
01:44On the inside, it features a roomy cabin that can be customized to your preferences
01:49with an emphasis on comfort and connectivity.
01:52Float in Motion is a vehicle that is built for autonomous driving
01:56and is outfitted with cutting-edge sensors and artificial intelligence
02:01to provide a ride that is both safe and efficient.
02:05It exemplifies Renault's vision for the future of urban mobility,
02:09which places an emphasis on user experience, flexibility and environmental responsibility.
02:18Flying Train Dahir Insat
02:21The Flying Train by Dahir Insat is a concept for transportation
02:26that was conceived by the Russian engineering company Dahir Insat.
02:30It is a futuristic transportation system.
02:33This cutting-edge system combines elements of conventional rail travel
02:37with cutting-edge technology
02:39and it is comprised of train-like pods that are suspended from above lines.
02:43Although the pods are meant to move at high speeds,
02:46they offer an alternative that is both quick and efficient
02:49in comparison to traditional trains and urban transportation.
02:54As a result of its electric propulsion,
02:56the system claims to minimize the amount of traffic congestion
02:59and provide benefits to the environment.
03:02Additionally, the elevated rails allow for minimal interruption
03:05to the infrastructure that is already in place,
03:08which makes it a solution that is both adaptive and scalable
03:11for contemporary urban landscape developments.
03:19MG Maze Concept Car
03:21To appeal to the motorists of the future,
03:23MG created the Maze Concept Car,
03:26a futuristic take on city transportation.
03:29It combines the worlds of mobility and gaming in a whimsical way.
03:32It's a little two-seater that's ideal for urban environments.
03:36Showcasing the internal mechanisms and adding to its dynamic look,
03:40the exterior sports a transparent shell reminiscent of high-end gaming PCs.
03:45Rather than using a conventional steering wheel,
03:48passengers can interact with the vehicle using their smartphones onboard
03:51thanks to cutting-edge UX UI technology and floating seats.
03:56As a concept vehicle, the MG Maze tests out many ideas
04:00for where automotive technology and design could go in the future.
04:04There is no market value for it because it is not for sale.
04:08When it comes to innovation in design and technology,
04:12concept automobiles like the MG Maze are priceless.
04:15They frequently impact the creation of subsequent production versions.
04:20SkyWay Technology Advantages
04:24SkyWay technology presents numerous advantages,
04:28particularly its cost-effectiveness.
04:30One of the primary benefits is its considerably lower construction cost
04:35compared to traditional and advanced transit systems.
04:39For example, SkyWay integrates innovative transport infrastructure
04:43at a fraction of the cost associated with more conventional systems.
04:48This involves significantly lower requirements for steel and reinforced concrete,
04:53optimizing material use while maintaining structural integrity.
04:57In terms of transportation costs, SkyWay boasts significantly lower figures
05:02when compared to rail, automobile and magnetic suspension trains,
05:06achieving up to an 1,800% cost reduction over traditional monorail systems.
05:13The total estimated cost for projects like SkyWay is around $300 million,
05:18exemplified by a specific project mentioned in the Miami Herald.
05:23Additionally, SkyWay's implementation requires minimal leveling or mountain drilling.
05:31Airspace Cabin Vision 2035 Plus
05:35For future airplane interiors, Airbus has proposed the Airspace Cabin Vision 2035 Plus,
05:41which aims to improve both the passenger experience and operational efficiency.
05:46As part of this plan, we envision biometrically enabled smart seats,
05:51individual climate control and state-of-the-art in-flight entertainment systems
05:56that can use virtual reality and augmented reality.
05:59There will be a wide range of cabin configurations,
06:02from luxurious suites to economical classes,
06:05all with flexible designs to meet the demands of passengers.
06:08As part of the effort to make flying more comfortable,
06:11the design incorporates features like ample overhead bin space and better lighting.
06:16In an effort to lessen its impact on the environment,
06:19the cabin makes use of eco-friendly materials and energy-saving features.
06:23A substantial investment in research and development,
06:26and high-end technology would be required to build such a cabin,
06:30but the actual cost is not known.
06:36Ehang 216. Designed by the Chinese manufacturer Ehang,
06:41the Ehang 216 is a two-seater autonomous electric vertical takeoff and landing aircraft
06:47that is also referred to as the EH216S.
06:52Urban air mobility is the focus of this pilotless passenger-carrying,
06:56unmanned aerial vehicle system,
06:58which demonstrates cutting-edge technology.
07:01The pricing of the EH216S is $410,000 for markets across the world that are not located in China.
07:10The suggested retail price in China is 2.39 million yuan,
07:15which is equivalent to around $338,000 in American currency.
07:20The Ehang EH216S is priced strategically to effectively penetrate the market,
07:27and it provides an option that is priced more affordably in comparison to the ideas that were made earlier.
07:33This pricing reflects Ehang's intention to make autonomous aerial transport more affordable and realistic,
07:39hence advancing the likelihood that electric vertical takeoff and landing technology will be commercially possible.
07:46Virgin Hyperloop.
07:52By rapidly pushing passenger or freight pods via near-vacuum tubes,
07:57Virgin Hyperloop intends to transform transportation.
08:01By combining electric power with magnetic levitation,
08:04these pods have the ability to travel at speeds of up to 670 miles per hour,
08:10drastically cutting down on travel time between cities.
08:13The goal of Virgin Hyperloop is to reduce the normally six-hour drive time between San Francisco and Los Angeles to 30 minutes.
08:21The business's ultimate goal is to create a safe, efficient and environmentally friendly transportation option
08:28that significantly reduces travel time and pollution.
08:32As the system is still in the planning phase, actual passenger pricing is not yet available.
08:37However, estimations indicate that it might be priced competitively with current airfare and high-speed rail options.
08:44Regulatory clearances and the effective deployment of the technology are prerequisites for the anticipated launch of passenger services in the 2030S.
08:58Bellwether eVTOL.
09:00An innovative electric vertical takeoff and landing aircraft developed for use in urban areas,
09:05the Bellwether eVTOL is popularly known as volar.
09:09Its wingless lifting body and concealed propulsion mechanism make it an excellent choice for urban settings.
09:16Redefining intracity mobility, the volar is small, eco-friendly and provides a smooth transition between ground and air travel.
09:24The third generation volar, the Oryx, offers enhanced flight efficiency and reliable performance in complicated urban environments,
09:32thanks to innovations in airframe design and flight control technology.
09:36The Oryx exemplifies Bellwether's dedication to developing innovative aircraft with a focus on human needs.
09:43It can accommodate three people and measures 3,700 by 6,300 by 1,900 millimeters.
09:51The price tag will likely start in the seven figures, but as manufacturing gets more efficient and scales up,
09:57the hope is that it will converge with the cost of owning a car.
10:01Avant Solo Electric Sport Car
10:08One-seater urban mobility is personified by the Avant Solo Electric Sport Car.
10:13Designed with an eye toward making an electric sports car's cabin more interesting and entertaining,
10:18the project began in 2020 as a partnership with Coventry University.
10:23For the lone traveler seeking an unforgettable experience apart from the typical internal combustion engine vehicle,
10:29this electric marvel provides all the power you need without the vibration and noise.
10:34Thanks to its small size and nimble handling, it can zoom through city streets.
10:38The Avant Solo's electric engine produces 56 horsepower, allowing it to attain a maximum speed of 129 kilometers per hour.
10:47On a single charge, the 17.4 kilowatt hour battery pack guarantees a range of up to 160 kilometers.
10:55At a starting price of $18,500, this revolutionary electric sport automobile is affordable for eco-conscious individuals who want to make a statement.
11:05Plana eVital Aircraft
11:11A South Korean firm called Plana Aero is working on a CP-01, a hybrid electric vertical takeoff and landing plane.
11:19They hope to make regional air travel more accessible with their hybrid air taxi,
11:23which has an impressive range of up to 500 kilometers and is priced affordably.
11:28This will revolutionize urban air mobility.
11:31When compared to completely electric vehicles,
11:33Plana's hybrid propulsion system improves fuel economy and increases range.
11:38If all goes according to plan, the business will supply SkyTaxi with 10 CP-01 planes by 2030 and another 40 by 2040.
11:47It is said that Plana is trying to make it cost-effective by scaling manufacturing in an effort to bring the price down to $3.5 million.
11:56However, the precise current pricing is not disclosed.
12:00Plana is aiming high with its ambitious objectives,
12:03which include creating full-scale prototypes and achieving mass manufacturing with the help of substantial fundraising.
12:12Kelecona Aircraft
12:14An innovative category of electric vertical takeoff and landing aircraft that is specifically suited for public transportation
12:21is being developed by Kelecona, a startup company based in New York City.
12:26The airplane, which is frequently referred to as a drone bus,
12:30has the capacity to transport 40 passengers in addition to the pilot or even 10,000 pounds of goods.
12:36The eight thrust vectoring fans and variable pitch propellers that it possesses allow it to optimize each stage of flight for maximum efficiency and performance.
12:46The first route that Kelecona intends to operate is going to consist of a trip from Manhattan to the Hamptons.
12:53The journey will take around 30 minutes and will cost $85 per person.
12:58Even as the technology continues to progress, future paths are still being considered.
13:03Battery capacity will account for an astounding 80% of the vehicle's overall weight, which is more than 13,600 kilograms.
13:11In 1979, Rockwell International began developing the Star Raker, a spaceship that would carry heavy payload and go from stage one to orbit.
13:26Using a combination of ramjets and rockets, this remarkable winged orbital launch vehicle was engineered to land horizontally and take off horizontally.
13:35The Star Raker was an ambitious spacecraft that hoped to drastically cut the anticipated $22 to $33 cost per kilogram of payload to orbit in 1978,
13:47hence reshaping the space transportation industry.
13:50The intricate design, which had 225 pieces, had proportions of 22 by 66 meters and had the potential to be cost efficient.
14:00The Star Raker had a useful purpose as a spacecraft, but it also served as the basis for many fictional representations and replicas.
14:08The Star Raker is an important character in stories about space travel, both real and imagined, because of its ingenious aircraft engineering and its cultural impact.
14:18NASA's CAPSTONE
14:24The small CubeSat mission called CAPSTONE, which stands for Cislunar Autonomous Positioning System Technology Operations and Navigation Experiment,
14:32is launched by the National Aeronautics and Space Administration to verify and assess navigation systems and lunar orbit dynamics that are vital to the Artemis program.
14:42Approximately $30 million was spent on developing the Capstone spacecraft, which is roughly the size of a microwave oven.
14:50The mission's development cost $13.7 million, with an extra $9.95 million going toward the launch.
14:57Rocket Lab's new launch pad in Virginia allowed the mission to take off thanks to the launch contract that NASA granted to the company.
15:04Both NASA and taxpayers have benefited from the mission's use of fixed cost contracts, which have effectively reduced costs.
15:12For the Lunar Gateway and subsequent trips to the Moon, the Capstone mission will serve as a demonstration of a precise.
15:22NASA HAVOC
15:24NASA's High Altitude Venus Operational Concept explores the feasibility of human exploration of Venus.
15:30HAVOC envisions an evolutionary exploration plan, focusing on the atmospheric conditions of Venus, which present a more manageable environment compared to its hostile surface.
15:41The concept includes using crude airships to float in Venus's upper atmosphere, where conditions are more Earth-like, enabling scientific research and potential future colonization.
15:52A detailed study on this atmospheric habitat was conducted by Dale Arney and Chris Jones at NASA's Langley Research Center.
16:00Various models and artworks related to HAVOC are available, such as a 3D model of the HAVOC crew transfer vehicle, priced at around $35, with discounted offers available.
16:11Additionally, a soft cover publication on HAVOC was listed at $134.75.
16:17Artworks related to HAVOC missions can also be found, priced at $15.
16:24.
16:26.