Future Narrative

I was blown away last year when I discovered that a YM-RX10 body kit—the new design that references the iconic RX7 from the 1980s—was finally available in electric form. What once felt like a dream reserved for concept art and fan forums is now a reality, thanks to Yutani Mobility. Yutani Mobility has ushered in a new era of personalized transportation with its customizable retro body kits, which are mated seamlessly to the latest modular electric vehicle chassis. Want an ‘80s street racer look with 2030s tech under the hood? No problem. Prefer a sleek ‘70s touring coupe with modern-day range and autonomy? They’ve got you. The road ahead just got a lot cooler!

The on-demand service is impressive. Cost and turnaround times are surprisingly reasonable, especially considering the level of customization involved. This isn’t slow, bespoke coachbuilding—it’s high-tech, scalable design. Yutani’s assembly process leans heavily on the “unboxed” manufacturing revolution that started reshaping the industry in the mid-2020s, eliminating traditional production constraints in favor of modular, decentralized build systems.

The result? The best of both worlds. Timeless aesthetics. Cutting-edge performance. And a whole new way to connect with the car culture of the past—without sacrificing the clean, efficient mobility of the future.

Last month, I took my electric YM-RX10 to a local track day. This wasn’t just a nostalgia trip but a full-on, future-forward experience. The YM-RX10, with its classic lines and fully modern internals, handled the circuit like it was born for it. Crisp cornering, confident acceleration, and silent power—it felt like piloting the soul of an ‘80s icon with the brain of a 2035 supercar.

What stood out, though, was how many others were doing the same thing. I met a fellow enthusiast who had just taken delivery of a fully electrified Chevrolet Camaro Berlinetta Model 2038, lovingly updated by Weyland Mobility Group. He was just as passionate about '80s GM designs as I am about early Mazdas. His Berlinetta 2038 kept all the right visual cues from the original—sleek, angular lines with a refreshed, aggressive stance. It was instantly recognizable but unmistakably next-gen.

We ran laps together all afternoon. My YM-RX10, equipped with advanced AI-assisted torque vectoring and adaptive traction control, held tight in the technical sections. His Berlinetta, sporting a larger battery pack and superior straight-line performance, passed me more than once on the back straight. Both vehicles featured Level 5 autonomous capabilities, though we left the driving to our reflexes that day—because some things, like a good corner, are best experienced the old-fashioned way.

By the end of the day, we both agreed: these made-to-order electric classics aren’t just a gimmick. They represent a new golden age of mobility, where past and future don’t compete; they collaborate. It’s a future where your dream car doesn’t have to stay in the past.

Future Narrative

As sea levels rose, coastal cities developed various environmental retrenchment strategies. Some mandated a gradual drawdown of development in areas most at risk. Others hardened infrastructure and developed megaprojects to manage storm surges and keep the rising sea at bay. A few cities approved vertical retrenchment strategies.

As rising seas redrew the boundaries between land and water, a radical new approach to urban adaptation emerged: vertical retrenchment. High-rise owners, facing the encroachment of the tides, were often compelled to collaborate, banding together to create elevated, shared “ground” levels far above the original street plane.

In this process, the lower floors of buildings—once bustling with lobbies, shops, and cafes—were deliberately sacrificed. These spaces became part of the submerged past, traded for long-term resilience. In their place, massive pilings were driven deep into the earth, anchoring structures with newfound strength and raising entire city blocks above projected future sea levels.

The result was a new urban fabric—promenades in the sky, where pedestrians moved above the waterline, navigating a layered metropolis shaped as much by climate as by design. It was an act of architectural survival and collective foresight—an upward migration that redefined what it meant to live on solid ground.

Some complexes repurposed lower floors as snorkeling havens. Aerial and marine ferries and a network of elevated causeways linked the complexes to higher mainland areas. Ensuring that building foundations and underwater utility connections remained in top condition took a toll on the finances of many cities.

Larger cities dealt with rising seas by providing elevated green spaces along their peripheries. Others built extensive networks of stormwater storage and pumping facilities. A few cities had to take more drastic measures by walling off their dense downtown areas to protect them from hurricane storm surges, persistent water inundation, and rising sea levels. Massive seawall foundations replaced the lower floors of buildings, and the outer periphery of streets terminated with massive seawalls.

Unfortunately, for some municipalities where finances were stretched thin, they were forced to sacrifice entire sections of developed areas to the rising sea. Some contracted explosive demolition services to strip and drop older buildings, providing a modest level of additional protection from hurricane storm surge and wave action. As a further testament to the power of nature, marine life thrived with the creation of new coral barriers.

Early Signals

The City of Miami is raising streets and infrastructure to combat the rise of sea levels.

Futureproof is a series of occasional provocations illustrating possible future paths for technology and culture. Think postcards from the future.

Future Narrative

Over the past two decades, the escalating impact of natural disasters—including wildfires, floods, and hurricanes—has driven the development of a new generation of disaster response fleet vehicles. Designed to support immediate relief and long-term recovery, these specialized vehicles are equipped with advanced technologies, modular systems, and rugged adaptability, enabling them to navigate unstable terrain and rapidly changing conditions. Their emergence marks a pivotal shift in emergency preparedness, enabling faster deployment, greater self-sufficiency, and more resilient support for affected communities in the wake of increasingly severe climate events.

The fires and storms of the 2020s revealed the limitations of conventional first responder equipment. Existing fleets often had vehicles too large to navigate the rubble, debris, and newly defined urban and natural topography after events. Unable to reach those in need, new, heavy-lift capable drones, like those used in extreme environments like Mount Everest, were produced in greater numbers for a broader range of tasks. Search and micro-transport drones also facilitated aerial grid searching and delivery of sustainment items to those impacted by natural disasters. First responders determined they needed more flexible vehicles to accommodate conditions in damaged urban and wilderness areas.

Weyland Industries was the first to respond with three complementary disaster relief and recovery vehicles. Weyland introduced the autonomous Compact Reconnaissance Autonomous Base (CRAB) to provide an agile initial reconnaissance response. Autonomous CRAB vehicles map the destruction of natural disasters and search for those in need. CRABs can roll over prepared or gravel surfaces or walk like their namesake, giving them unparalleled mobility over rough terrain and rubble. As a result of their small size and agility, CRABs are often the first "Walk-in" resource in disaster areas. Deployed in large numbers, their initial surveys inform master response plans. For safety, CRABs travel in pairs, allowing the lead unit to be recovered should they encounter challenges that cannot be overcome. Once other resources are in place, CRABs can serve as microgrids for power and communication, providing services for several days.

Weyland Industries’ Mobile Utility Light Emergency (MULE) vehicles are an upsized version of CRAB vehicles. They can carry more supplies and equipment and clear debris using various attachments. They work in concert with heavy-lift drones to extend search and rescue areas or deliver much-needed supplies during the initial days after a disaster strikes. MULEs can be equipped with many attachments and open initial rescue and supply routes through impacted regions.

A third vehicle provided by Weyland Industries rounds out many first responder units today. Basic Utility Logistics and Life Sustainment (BULLS) units provide extended power and more comprehensive community communications capabilities over extended recovery phases. While each autonomous unit can deliver emergency supplies and ferry wounded to base camps, some specialized units provide power or purified water supplies for weeks.

Weyland’s fleets of CRABS, MULES, and BULLS disaster response vehicles have become a welcome sight worldwide during times of deep human need.

Early Signals

In 2019, Hyundai Motors explored a range of vehicles featuring articulating legs and rotary motors with wheels, as part of its Elevate concept. Read more about it here.

Dannar Industries is providing battery-powered vehicles capable of providing distributed power and carrying out a variety of construction-related tasks.

Futureproof is a series of occasional provocations illustrating possible future paths for technology and culture. Think postcards from the future.

Future Narrative

This season, broadcasters introduced a new perspective on the game of football. Embedded football cameras (EFCs) now provide never-before-seen perspectives on the game. The latest equipment boasts digitally stabilized 8K imagery and Wi-Fi 12 standards for seamless capture and streaming. An innovative new lining material accommodates the latest components and front-seam-mounted camera while maintaining the professional league’s standard weight and balance.

Embedded football cameras are revolutionizing the way the game is viewed and officiated, providing unprecedented clarity and perspective. These cutting-edge cameras offer new angles that not only enhance the viewing experience for fans but also bring greater transparency to critical moments on the field. In passing plays, where interference penalties can dramatically influence the outcome, embedded views help identify contact, making it easier to determine who is at fault. The footage also highlights the incredible precision and timing of quarterbacks threading passes through tight coverage, showcasing their skill in ways never seen before. For officials, these embedded perspectives offer invaluable support in ball placement, especially when every inch matters. By referencing field position images with pinpoint accuracy, they ensure fairer, more consistent calls in high-stakes situations.

Technology

Digital image stabilization technology and software smooth out the spin and rough knocks of imagery streaming from embedded football cameras, providing new angles on the game's action.

Implications

With new angles from which to evaluate plays, coaches may be more inclined to throw the review flag, and referees will have more video material to review, which could slow down games.

The unique angles captured by the embedded cameras in footballs enable sports enthusiasts to appreciate the athleticism of their favorite players from exciting new perspectives.

Futureproof is a series of occasional provocations illustrating possible future paths for technology and culture. Think postcards from the future.

Future Narrative

Last night marked another productive milestone. With just two of us supervising, our AI-enabled dozer fleet autonomously leveled the new construction site overnight, flawlessly and ahead of schedule. Within a few weeks, this area will be home to a new big-box retail warehouse, a testament to the speed and precision of modern construction technology. The efficiency we've achieved isn’t just impressive—it’s transformative, significantly reducing commercial construction costs. I like to think that the safer, more streamlined methods we’re pioneering contribute in a small but meaningful way to the lower retail prices my family—and many others—are now seeing at the checkout line.

In addition to site preparation, infrastructure placement and maintenance have experienced a technical revolution. Juan and his crew will start laying power and water infrastructure lines later this week. They now use equipment that displays the location of legacy piping and underground power lines and where to place new infrastructure.

Things are much safer today as well. Just across the street, construction of a mixed-residential housing complex is underway. The team there is digging to make way for an underground parking lot. My friend Thomas said they are digging with remotely operated equipment, so workers are no longer exposed to temporary wall supports, making digging operations far safer.

New jobs are emerging to make all of this possible. Maintenance of our fleet of construction equipment is more important than ever, as uptime is critical. As systems and equipment become more advanced, new trade skills are needed. My cousin is currently in school, learning about construction fleet management. We catch up on things every month or so. It's great to see a new generation of construction workers innovating in new ways, enhancing quality, efficiency, and safety.

Technology

GPS and remote control technologies will empower smaller numbers of construction workers to manage site equipment and operations more efficiently and precisely.

Ground-penetrating radar, precision GPS, and integrated construction databases will protect existing infrastructure and enable the more accurate placement of new infrastructure.

Remotely operated vehicles increase operator safety. Operating vehicles at a distance is beneficial when digging out voids for building foundations or performing forestry management.

Implications

Construction costs may drop dramatically, lowering costs in other sectors of the economy. New equipment manufacturing, technology, and maintenance jobs will emerge, requiring new forms of construction site training.

Futureproof is a series of occasional provocations illustrating possible future paths for technology and culture. Think postcards from the future.

Future Narrative

Last week marked a significant milestone as we celebrated the 10th anniversary of Span One, the inaugural launch and operational span of the Space Elevator complex. A decade ago, its opening was a bold leap into the future, transforming humanity’s relationship with space. Over the past ten years, the impact of Span One has been nothing short of revolutionary. The cost of accessing low Earth orbit and beyond has plummeted, enabling a surge in innovation and accessibility. Once limited by budget and launch constraints, critical environmental research platforms now operate continuously above the Earth, gathering unprecedented data to monitor climate change, ocean patterns, and atmospheric conditions in real time.

Meanwhile, space tourism has evolved from an exclusive novelty into a rapidly growing sector, with more people experiencing the awe of Earth from above than ever before. The elevator's stability, safety, and sustainability have redefined what space infrastructure can be, serving as both a technological marvel and a beacon of international cooperation.

The production of carbon nanotubes at an industrial scale made the long-envisioned system a reality. Over the last decade, hundreds of tons of material have been lifted into space, and prices for orbital lifting continue to fall. The costs associated with building the Space Elevator have been offset by the frequency of mining spacecraft delivering valuable and exotic minerals from the asteroid belt. As we look ahead, Span One stands not just as a symbol of engineering excellence but as a foundation for a new era of exploration, discovery, and global connectivity beyond our atmosphere.

Implications

If the lightweighting and strength challenges can be solved, space elevator structures have the potential to usher in a new era of space exploration.

Signals

Learn more about the Space Elevator concept.
Can Quiet, Efficient 'Space Elevators' Really Work?

Futureproof is a series of occasional provocations illustrating possible future paths for technology and culture. Think postcards from the future.

Future Narrative

These Bastion facial filter glasses are excellent. They filter for UV, shift tint according to lighting conditions, and protect against incidental overlapping LIDAR from all the self-driving vehicles I pass on my walking commute. Most importantly, they provide filtered air close to my nose, which helps my breathing and allergies. ScentScene™ fragrance pods fit in each temple and emit various scents depending on your location.

While they cost more than traditional eyewear, the benefits have been worth it. The battery lasts approximately four days, and kinetic chargers ensure that every move I make replenishes some power to my eyewear. Scents are powerfully linked to memory and offer a neat way to enhance our memory and a sense of place. There are also connections between scents, health, and well-being. Come to think of it, I have been a bit more relaxed recently, so maybe there is something to the ScentScene™ technology after all.

Related Technologies

The micro air filtration system provides positive pressure and clean air around the nose and mouth.

Reflective gold coating and elements scatter LIDAR, protecting from rare overlapping amplified laser emissions from self-driving vehicles.

The kinetic charging feature utilizes body movement to maintain a high battery state.

ScentScene™ pods placed in the ear temple produce a range of scents based on GPS coordinates.

Related Work

See the Hyundai Health and Mobility work.

Implications

“Smell can instantly trigger an emotional response along with a memory, and our emotional states have a very strong effect on our physical well-being.”

-Rachel Herz, a neuroscientist at Brown University who studies the psychological science of smell.

The ability of odors to evoke memories of past experiences has intriguing scientific and therapeutic implications.
Read the Harvard Medical article The Connections Between Smell, Memory, and Health.

LIDAR technology is overwhelmingly safe for the human eye. However, this could present issues if multiple beams coincide and strike the eye simultaneously. What other unintended consequences might we face as autonomous mobility scales?

Futureproof is a series of occasional provocations illustrating possible future paths for technology and culture. Think postcards from the future.

Future Narrative

The race to secure more helium-3 (He-3) is on! The isotope of helium is rare on Earth due to our shielding atmosphere, but it is plentiful in the lunar soil. He-3 is advancing quantum computing, powering fusion energy facilities, and enabling the production of in-space propellants. New companies are growing, offering trans-lunar transport, space mining equipment manufacturing and maintenance, lunar accommodations, and even space medical care. Thankfully, with such a range of space exploration and energy companies all staking claims to lunar plots, an international regulatory board oversees allocations for mining operations. I’m proud to crew one of the Prospector craft, which oversees sustainable lunar mining and exploration operations.

Technology

Helium-3 extraction, storage, and transportation technologies must be developed to harvest the rare but potentially vital isotope from the lunar surface.

Implications

As lunar mining operations become a reality, companies like SpaceX, Astra, Caterpillar, Shell, Exxon, Glencore, Interlune, and other future energy and mining companies will face new opportunities.

International regulatory bodies may need to be established to ensure the future sustainability of lunar mining and exploration.

Early Signals of and Related Concepts

TechCrunch Article on Interlune lunar mining startup.
Lessons from deep-water and deep-space exploration efforts will likely be transferable. See the Futureproof Autonomous Undersea Resource Explorer Postcard.

Futureproof is a series of occasional provocations illustrating possible future paths for technology and culture. Think postcards from the future.

Future Narrative

It’s been almost two years since our trusty spacecraft Progenitor gently touched down in Columbia Hills for the last time. After making five trans-terran trips, we completed all conversion activities in record time, transforming our spacecraft into a high-rise habitat. Decades ago, the Mars Rover Spirit discovered that hot mineral springs had once burbled up from the rocks near the Gustav Crater, which is nearby. This has proven invaluable as we now harness hydrogen and oxygen from the soil to meet our air, water, and power needs, and we are growing food hydroponically on the Progenitor’s upper decks. We look forward to having Martian neighbors as the spacecraft Assurance will join us on Plot Five early next year.

Technology

Spacecraft like SpaceX’s Starship will be large enough to ferry many people to the Red Planet.

One way to accommodate new residents of Mars may be to repurpose spacecraft as they are retired into longer-term surface habitats.

Utilizing existing elements in the Martian soil will be crucial to the long-term terraforming of the planet.

Implications

Terraforming other planets will empower humans to become a multi-planet species and live beyond any potential extinction-level events on Earth. How will the new Martian communities survive, thrive, and govern to sustain life on the red planet?

Related Concepts

Hassel + EOC Envision a Home on Mars

Partial Inspiration Source

Great Space Battles: A Terran Trade Authority Handbook
Additional designbivouac Post on Peter Elson
To view more of Peter Elson’s work visit: www.this-is-cool.co.uk/the-classic-sci-fi-art-of-peter-elson/

Futureproof is a series of occasional provocations illustrating possible future paths for technology and culture. Think postcards from the future.

Future Narrative

I purchased a new computer last year with Nanobot protection. Yesterday, I heard some faint ticking inside my machine. I turned on the internal monitor, and sure enough, the Nanobots were busy checking connections and cleaning up. These tiny bots navigate through intricate circuitry and components with unmatched precision. Equipped with advanced sensors and cleaning mechanisms, they will rid my computer system of dust, debris, and even microscopic contaminants that can hinder performance. They do this on an as-needed basis and work autonomously, enhancing the efficiency and extending the overall lifespan of my computer.

Technology

Nanobot technology features articulated micro-joints and state-change materials, enabling nanomobility.

Tiny capacitors store power drawn from contact with nano-power ports on circuit boards.

Implications

As air quality degrades and energy prices rise, nanobots can play a crucial role in maintaining computer efficiency.

Circuit board design needs to evolve to support the capabilities of nanobots, including the provision of capacitive power ports and modular, easy-access circuit componentry.

Futureproof is a series of occasional provocations illustrating possible future paths for technology and culture. Think postcards from the future.

Future Narrative

It finally happened. I got my first car! Working with Dad on it last Saturday was great. We audited all the electronics and created an upgrade plan together. That was half the fun. The range is significantly lower now, considering this vehicle is a 2021 model with 274,000 miles on the odometer. Mechanically, it is sound. The body is in great shape and has a wrap on it, so the paint looks amazing. Still, we’ve got to do something about the range. While we are at it, I would love to boost the power.

The prior owner had planned to donate the battery pack to the Second Life Auxiliary Battery (SLAB) program, repurposing it as a home energy backup battery. Dad and I have some other ideas. I am looking forward to this project. It makes the things I learned in my electronics class much more relevant and tangible.

A Tesla FLUX (Functional Line Upgrade-X) vehicle modification safety interface module is shown. This product has proven to be a gateway for next-generation electric vehicle modifiers.

Implications

Improving the performance of that first car has been a time-honored tradition amongst auto enthusiasts. What does the future hold for weekend garage projects as we move into the new era of electric-powered automobility? Will the focus be on power, efficiency, torque, range extension, or perhaps all of the above? And with the right to repair access disputed by some electric vehicle manufacturers, will this even be possible? What does safe electric vehicle modification look like in the 21st century? What do OEM and third-party aftermarkets for electric vehicles look like? Will it be a spin-off SEMA community or be more like a new “home-brew” type of group from the early days when Jobs and Wozniak worked together?

Related Links

www.unpluggedperformance.com/

Futureproof is a series of occasional provocations illustrating possible future paths for technology and culture. Think postcards from the future.

Future Narrative

Now that fusion power is available through compact and lightweight equipment, new forms of mobility are emerging everywhere. Advances in silent magnetic levitation are also transforming the micromobility landscape. Various defense forces are exploring how H.O.V.E.R. (Human Operated Vertical Equipment for Reconnaissance) technologies can help protect infantry as they conduct nearly silent patrols at extended ranges with a full equipment loadout.

First responders utilize similar H.O.V.E.R. (Human-Operated Vertical Equipment for Rescue) systems in search and rescue operations. These systems help searchers gain a better vantage point from which to locate those in need of rescue and make extracting them easier, safer, and more comfortable.

System Benefits

The H.O.V.E.R. system enables users to overcome challenging portions of trails, urban obstacles, and small streams by activating the system and gently propelling themselves forward. In a similar fashion, trenchworks and minefields can be safely traversed. Systems from three companies are being tested to hover a typical soldier and their equipment to a maximum height of fifteen feet. Users can cover up to 30 meters with one bounding movement. A continual low-power lift function relieves users of most of the weight of their equipment.

Search and Rescue units are also testing systems. These teams benefit from similar abilities to effortlessly cross small streams or challenging portions of terrain. During searches, backcountry first responders gain a better vantage point above brush and lower forest layers. Overall, this first generation of H.O.V.E.R. systems shows great promise for reducing the physical burden users endure when carrying full combat or search and rescue loads on extended operations.

Those testing the units say it reminds them of the footage of astronauts bounding across the moon's surface, but for longer distances. Select units are testing larger rigs capable of providing hovering capabilities and directional control for small groups of linked soldiers over longer, currently classified distances.

R.O.V.E.R. (Robotic Overland Vertical Equipment for Rescue) sleds are being tested in search and rescue operations. Hover sled technology provides the sleds with 12-15 hours of constant low-level lift as they utilize a “virtual leash” feature to follow users' paths. The sleds bear the main load of the team’s equipment, increasing the endurance of search and rescue teams and the amount of territory they can search. Rescued patients are carried out of the wilderness on R.O.V.E.R. sleds, further enhancing the safety of rescue missions.

Related Links

Learn more about Gravity’s jetpack technology at www.gravity.co
Veritasium’s feature on the world’s strongest magnet
Outline of magnetic levitation and some of the most notable instances of it in mobility to date: en.wikipedia.org/wiki/Maglev
Learn more about the Earth’s magnetic field.

Futureproof is a series of occasional provocations illustrating possible future paths for technology and culture. Think postcards from the future.

Future Narrative

Are your pets uncooperative at bath time? Then, you’ll love the Hug-a-Dub-Dub! hug-powered pet washer! Just slip your critter into the easy-access washing suit and buckle them in. Add your favorite pet-cleaning soap and warm water into the easy-fill port behind the neck collar. Squeeze the tail bulb or give your pet hugs, and micro streams of cleaning solution move through hundreds of pores in each cleaning chamber, gently cleaning your pet’s coat and skin. Slide open the paw drains and repeat with a warm water rinse cycle. A universal hair dryer attachment allows quick drying without all the “hair in the air” mess.

Technology

Following the K.I.S.S. (and hug) principle, this Hug-a-Dub-Dub suit requires nothing but willpower to operate.
Hug-powered fluid displacement massages and cleans your pet gently.
Outdoor use or a sink or cleaning tub is recommended.

Implications

The device saves precious water.
It saves on cleaning time as hair can be conveniently rinsed from washing suits before storage.
How else will you ever wash your pet again after you use the Hug-a-Dub Dub suit?

Availability

Available April 1st at fine retailers near you. See note below for additional details*

* Note: Enjoy April Fools Day. Not an actual product. At least not yet.

Futureproof is a series of occasional provocations illustrating possible future paths for technology and culture. Think postcards from the future.

Future Narrative

These new maintenance backpacks hold and power everything we need during a solar panel field service shift. My pack's featherweight and nearly silent compressor cools the air flowing through my cooling jacket and chills the plates in my heat-exchanging wrist cuffs. The equipment runs off my pack’s flexible solar panels and a small battery all day. It produces enough filtered drinking water to keep me hydrated for an entire shift. Given all the new equipment, I think this job is here to stay. Some might even call it future-proof.

Technology

As solar energy costs continue to decline, a workforce with new capabilities and evolving needs will be essential for maintaining our next-generation clean energy infrastructure. Advances in solar power will help the energy grid and power personal climate management equipment. Organizations will benefit from embracing design thinking to prototype and explore viable technologies needed to meet the needs of a new workforce. This often involves initially integrating off-the-shelf technology as a proof of concept, as shown in version 1.0 of the solar technician cooling jacket and power backpack. Iterations and refinement are needed and, in this case, resulted in the production version of the SOL-ICE (Solar Occupation Lifeline - Individual Cooling Equipment) system.

Note that the production version of SOL-ICE (as shown in use by the solar technician above) reduces the original prototype volume by 43%, part count by 78%, and weight by 67%.

Implications

As global warming continues, technological innovation will be necessary to safeguard the health and well-being of those who assume new roles in extreme environments.

Related Concepts and Research

www.coolingcuff.com/science
en.wikipedia.org/wiki/Atmospheric_water_generator
An article documenting the effectiveness of fan-attached jackets on www.nature.com

Updates

Nike and Hyperice Unveil Tech-Enabled Boots and Vest Designed to Boost Athlete Warm-Up and Recovery

Futureproof is a series of occasional provocations illustrating possible future paths for technology and culture. Think postcards from the future.

Future Narrative

When they started modifying the city’s coastline in 2021 to accommodate rising sea levels, I knew it was just the beginning. The continued rise of sea levels has redefined our streets, and the increase of EVTOL travel has reshaped the urban landscape of our metropolis. Today, innovative, adaptable street-level structures are helping to futureproof the city against rising sea levels. At the same time, our building's upper floors extend outward and are increasingly interconnected by new skywalks.

Technology

Breakthroughs in concrete are reshaping our cities. Permeable concrete is used at street level, where things are still above ground, to allow water to drain between high-water events. Lightweight and strong carbon fiber-embedded concrete empowers architects to create more robust, lighter structures, increasing the square footage in our skyline.

Implications

Advances in building technologies, aerial mobility, and climate change may dramatically reshape our city skylines. Coastal cities must begin implementing plans to mitigate sea level rise and enhance the resilience of their infrastructure.

Related Concepts and Research

The Financial District and Seaport Climate Resilience Master Plan
New York City Is Sinking Under The Weight Of Its Own Buildings
Skyportz: ‘Waterfront vertiports are the future for advanced air mobility’
Future Flight: The Rise of Advanced Air Mobility
How Flying Taxis Revolutionize Urban Transit

Futureproof is a series of occasional provocations illustrating possible future paths for technology and culture. Think postcards from the future.