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

The war in Ukraine was brutal for all involved. For many years, war wreckage covered vast regions of the country. Mines and unexploded ordnance rendered large swaths of land unusable. Much of Europe’s breadbasket lay dormant. Enter the Weyland Heavy Industries Colossal Landmine Equipment and Armament Removal (CLEAR) platforms.

While many knew the cost of rebuilding Ukraine would be high, few grasped the daunting scale of what it would take to make Ukraine ready for reconstruction. Weyland Heavy Industries was one of the first to understand the scope of the challenge. Remarkably, just 18 months after proposing the CLEAR platforms, the company had three prototype units actively clearing former battlefields in Ukraine.

The massive CLEAR mobile recycling platforms shredded and smelted main battle tanks and other military vehicles densely strewn across Ukraine. Minefields and unexploded ordinance were also cleared, likely saving tens of thousands of civilians. Ten nuclear-powered behemoths restored most former battlefields in Ukraine’s Dnipropetrovsk Oblast within four years of the program's introduction. Paradoxically, CLEAR platforms left behind what appeared to be an apocalyptic landscape, but the land was safe for Ukraine’s skilled farmers to transform into productive farmland again.

Weyland Heavy Industries applied its large-scale marine manufacturing processes to produce the mega-scale CLEAR vehicles. The battlefield clearing program positioned the company in a favorable light. Once decommissioned from battlefield clearing, the massive CLEAR machines were repurposed, providing power for small—to medium-sized cities. This proved profitable since Weyland Heavy Industries was given rights to all materials salvaged from the battlefield.

The knowledge gained from the program led to the company producing fleets of autonomous mega-combines that productively roamed the same once-scarred landscape—and ultimately, the company’s large-scale future terraforming equipment destined for Mars.

Early Signals

Recycling efforts are upscaling to recover precious resources.

VTN Scrap Shear C1700

VZ-950 Universal Shredder

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

Well, it has taken over a decade, but we now have a handle on the trash that once covered the climbing routes and base camps of Mt. Everest. As the number of climbers increased in the 2020s, the trash challenge on the mountain seemed insurmountable. Then, governments limited the number of climbers per year. Permitted climbers were required to carry 2 kilograms of trash to established facilities below the mountain and pay a new fee for prototyping a trash sorting, recycling, and drone-based trash “down lift” program.

Initial prototyping of drone-based trash collection was scrappy and rudimentary. The Everest Waste Management took steps to ensure that drones would not shred trash bundles during flight or upon landing. The Apex Lifting Prototype 01 tested and proved all end-to-end service touchpoints during three peak climbing seasons. Drone lifting limits and flight operations guidelines were established, including rules for various weather conditions. Altitude limits and expected route distances were also met for different temperature conditions.

Everest Waste Management applied learnings to shape the second drone fleet. Working with Weyland Industries, two versions of drones with eight lifting rotors were developed, making up a fleet of 14. The new fleet featured a more robust and efficient cargo packaging and attachment system, capable of accommodating compressed trash bundles and resupply packages. Two-way routing involving flying supplies over the treacherous glacial field or to climbers in need further up the mountain, and removing trash on the return leg, was also made possible.

This year, the Everest Drone Service, a subsidiary of Everest Waste Management, is experimenting with two rescue drones capable of lifting climbers off the mountain's highest point in favorable weather conditions. In addition to being able to send supplies to climbers in need, this will provide an extra layer of support to those taking on the challenge of summiting the mountain.

Expanding the emergency services tent at Basecamp has further enhanced climber safety. During overcast days, Weyland micro incinerators process a small amount of trash, providing power to make up for what solar panels would otherwise provide.

Implications

As drones remove trash on Mount Everest, the potential for aerial noise pollution increases.

Having drone-based supply and emergency rescue services as a safety net may diminish the significance of summiting Mount Everest for individuals.

Downmountain recycling and waste management services must be implemented to handle incoming trash.

Rescue drones increase the safety margin for climbers on the mountain and don’t put helicopter pilots at risk.

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

We subscribed to the Lawn Keeper drone service last Fall, and our lawn has never looked better. Syncing with seasonal data and local weather forecasts, the service seeds and fertilizes our lawn at optimal times of the year. The optional Lawn Defender service makes weekly passes to keep weeds at bay by targeting them with just enough low-power laser energy to eliminate them.

I used to think they would be annoying, but today’s drones are so quiet that I view them as a sign of the passing of the seasons, like the smell of freshly cut grass or the rustling of leaves across the lawn. As an added benefit, the Lawn Defender drones eliminate weeds without the use of chemicals and work wonders on Mosquitoes.

Technology

Drones are improving noise reduction, battery life, and GPS positioning. Prices continue to fall, and as more consumer use cases emerge, drones will become more integrated into our daily lives in hard-to-predict ways.

Implications & Signals

Drones are being adapted to new uses, from battlefields to wheatfields, daily. What restrictions might be needed for this new technology?

Might using drones provide a chemical-free way to manage pests?

Drone Launch Academy: How Are Drones Used in Agriculture?

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

Future Narrative

I love my trusty TRACER (Tracking Retail Assistive Cargo Electric Rover) companion, Max. He is always there for me, helping me maximize my workdays. Thanks to the TRACER virtual leash system, Max is just a few steps away, faithfully following in my footsteps while carrying the heavy loads I am responsible for to their destination. My productivity has tripled since I added Max to the mix. Next month, I may purchase the stair-climbing accessory for Max to expand its delivery capabilities even further.

Related Technologies

Starship Technologies raises $90M for autonomous last-mile delivery expansion

Visit Starship Technologies

WSP Whitepaper: Future of Delivery: Unleashing the potential of micromobility for the last mile

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

Future Narrative

Hi. I’m Buster. Since our translator-enhanced training took place, I now relate to my trainers at an entirely new level. It feels wonderful to have an even deeper bond with them. I am proud they believe in me enough to let me go into dangerous places to help save their friends. People have been so good to me. I want to do good work for them. Digging and tunneling perfectly align with my breed heritage, so it’s a lot of fun most of the time. This new kit protects me and allows me to bring things to people in tight spaces. My trainer always has my back, literally. I use a rope attached to me and carry an air supply hose to people who need it, which I can use as well.

Biology

West Highland Terriers, affectionately known as Westies, possess unique qualities that make them exceptionally well-suited for search and rescue operations in earthquake-stricken areas. Their compact size and agility are invaluable in navigating the challenging terrain of collapsed buildings and rubble. While larger breeds may struggle to maneuver in tight spaces, Westies can effortlessly weave through debris, accessing areas that would otherwise be inaccessible to rescuers. This ability to easily traverse precarious environments increases the chances of locating survivors trapped beneath the wreckage.

West Highland Terriers are known for unwavering determination and tenacity. Once they catch the scent of a trapped individual, they exhibit relentless perseverance in their search efforts. Their boundless energy and enthusiasm drive them to tirelessly scour through the rubble, undeterred by the chaos and devastation surrounding them. This innate drive to help and refusal to give up, even in the face of adversity, make them invaluable allies for rescue teams working against the clock to save lives.

Westies possess heightened senses, enhancing their effectiveness in search and rescue missions. Their acute sense of smell enables them to detect human scent amidst the chaos of disaster sites, even when it is faint or buried beneath layers of debris. Additionally, their sharp hearing enables them to pinpoint sounds that may indicate signs of life beneath the rubble, aiding in the location of survivors. These enhanced senses, coupled with their intelligence and trainability, equip West Highland Terriers to excel in locating and rescuing individuals trapped in the aftermath of earthquakes.

Technology

New AI-driven translators have further enhanced the ability of Westies and their Trainers to communicate, further strengthening their bond and the effectiveness of their partnership in disaster zones.

A carbon-fiber embedded protective suit with a thermal protection layer helps protect Westies from sharp debris and thermal extremes.

Rescue Westies carry air, hydration, communication, and recovery lines into caverns, which Westies can also use to replenish themselves during rescue operations.

K-9 rescue suites integrate lighting and pockets that contain communication equipment and medical supplies.

Seeing the face of a West Highland Terrier during times of distress can help calm victims and enhance their chances of survival.

Implications

What new occupations and contexts will they thrive in as we grow our bonds and communication capabilities with K-9 friends?

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

Future Narrative

We finally received the first of five autonomous water rescue craft last month. Since then, three people have been saved from rip tides. These crafts use an array of sensors to locate swimmers in distress. Once identified, the craft approaches and the two vertical motors up front lower the hinged, netted rescue area below swimmers. Swimmers are gently lifted above the water and settle securely on the safety netting for transport back to shore. Affectionately referred to as “Swoop and Scoops,” these crafts now provide an ever-present additional safety response along our shoreline.

Some municipalities use autonomous water rescue rafts in concert with larger craft when more than one swimmer is distressed. These smaller craft, designed with a partial submersion front motor, are typically deployed in smoother bodies of water or beyond wave breaks. They can also help patrol larger public beach areas more efficiently.

Technology

Sensors and Detection Systems: Autonomous aquatic rescue vehicles integrate various sensors, including sonar, cameras, and thermal imaging technology. These sensors enable the vessel to detect and locate distressed individuals, even in low-visibility conditions.

Communication Capabilities: The communication systems of these waterborne vehicles enable them to extend radio coverage and establish connections with rescue teams or individuals in need of assistance. They can relay vital information, provide reassurance, and coordinate rescue efforts seamlessly.

Payload and Rescue Mechanisms: Autonomous aquatic rescue vehicles carry essential supplies, including life preservers, first aid kits, and automated defibrillators. They can deliver these to distressed ships close to shore. Some have built-in mechanisms for towing or lifting individuals out of the water.

Efficiency and Speed: These rescue vehicles significantly reduce response times by leveraging sensor and autonomous technology to pre-position in areas presenting the most risk to swimmers or boaters on any given day. They operate swiftly and precisely, enhancing the chances of successful rescue missions.

Adaptability and Versatility: These rescue watercraft are customized for various scenarios, from rescuing individuals stranded at sea to aiding in swift water or flood rescue operations. Their adaptability makes them valuable assets in diverse water-related emergencies.

Implications

These water rescue vehicles feature advanced autonomous navigation systems, enabling them to operate independently in water environments. They can navigate complex waterways, identify obstacles, and reach victims quickly and efficiently. Their vigilance never wanes.

They are constantly deployed and on patrol, reducing the time needed to respond to water rescue events.

Overall, autonomous aquatic rescue vehicle technology represents a game-changing innovation in enhancing water safety and emergency response capabilities.

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

Well, here it is, right on time. Many debated the merits of allowing aerial delivery by drones within city limits years ago, but now it is commonplace. Breakthroughs in drone safety and their increased quietness were key to growing acceptance. Now, units with balconies in New York command a premium over those without them due to the convenience of balcony delivery. Our city streets are much quieter and safer, with fewer delivery trucks double-parking to unload packages in the middle of the street. There seems to be a bit more shade at street level, too, offering more relief on hot summer days.

Technology

As drone technology becomes more efficient and quiet, companies like Amazon, FedEx, and Google will work with others to deliver packages directly to customers’ addresses via balconies or rooftop package locker facilities in cities.

Implications

Historically, approximately eighty-six percent of Amazon’s packages weigh less than five pounds. The FAA must work with various delivery companies to effectively stratify airspace for safe drone delivery. Municipalities will also have a hand in setting delivery and architectural amendment policies for those wishing to add balconies to their properties.

Related Links

Amazon Drone Update

FAA Advisory and Rulemaking Committees: Unmanned Aircraft Systems (UAS) Beyond Visual Line-of-Sight (BVLOS) Operations Aviation Rulemaking Committee (ARC)

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

Future Narrative

I’ve ridden some epic long-distance motorcycle journeys and always captured key moments in my mind. I never wanted to pull over to fumble with a camera or nurse GoPro batteries and miss out on the true essence of a ride. Now, I capture memorable stretches of trips and spirited riding sessions with a simple button press. Cinema Pro launches up to four drones that track with me, automatically capturing stunning, high-resolution video from multiple perspectives. Videos can be easily edited, and I even use them as a training aid to analyze my riding style. I am a better rider and cinematographer today, thanks to Cinema Pro.

Rider Benefits

The FAA finally stratified the airspace a few years ago and approved Close Vehicle Coupled Proximity (CVCP) drone use standards that build upon V2X standards. Thankfully, vehicles and drones will never come into contact with each other. Drivers and riders can capture their journeys while staying focused on the road and taking in memorable moments.

Technology

The Cinema Pro Package is available in several configurations. Riders can specify up to four drones deployed from side or rear storage cases. When stowed, drones are protected by covers and charged by batteries at the base of the cases. A streamlined, urban commuter pannier allows for lane splitting in states where it is legal and accommodates smaller drones with flight times of up to 30 minutes. The standard side pannier accommodates two small drones or one larger drone capable of sustained filming for up to 60 minutes between charges.*

During extended remote trips, riders can use regen mode to recharge batteries. Regen mode exposes the blades of two motors on the master drone. While on the go, airflow spins the motors, regenerating the drones' and case batteries' energy. Larger rear-mounted cases can accommodate two small drones or one larger drone. Extended-range booster antennas are available for motorcycles with larger cases. Drones are on a “virtual leash” and will never exceed their “bingo” battery range point for returning to their host vehicle.

* Flight times are dependent upon speed and weather conditions. Estimated flight times assume a speed of 65 miles per hour and fair weather with winds of 15 miles per hour or less.

Indicators and Implications

Lynk & Co. recently released an update for its LYNK OS N vehicle, 06 EM-P, which includes the ability to control DJI drones inside the vehicle.

The FAA will need to formalize altitudes and regulations for drones operating with vehicles. FAA Advisory and Rulemaking Committees: Unmanned Aircraft Systems (UAS) Beyond Visual Line-of-Sight (BVLOS) Operations Aviation Rulemaking Committee (ARC).

Vehicle-to-Everything (V2X technologies and standards must mature to ensure that vehicles remain coupled with drones and that no vehicles or drones impede or intersect with one another or any other objects.

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

Future Narrative

On a recent cross-country motorcycle trip, I stopped north of Moab, Utah, to bivouac for an evening. The dry creekbed and a nearby rock formation protected me from the gentle overnight breeze. I took a short hike at sunrise and came across one of those new USGS markers with a solar-powered camera Monitor kit anchored next to it. I scanned the badge to access the viewpoint later. It was strange to have felt so alone and isolated the evening before, only to discover a Monitor station a quarter of a mile away. It is beneficial that these resources are available for those who need assistance. I can also view the camera feed from this location remotely, which is excellent as it is now one of my favorite bivouacking sites. Still, I wonder what it takes to get off the grid for a while.

Technology

AI-enabled, solar-powered image monitoring for fire prevention, weather forecast augmentation, vegetation monitoring, and remote assistance services

Implications

With new off-grid support infrastructure in place, what does getting away from it all mean?
How might this seldom-seen support network impact the human spirit?
How might USGS Monitor technology save lives and communities as we see more significant weather and wildfire events?

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

Future Narrative

Seeing the Tour de France through the eyes of so many who attended this summer was amazing! Crowdcasting AI technology provided unprecedented opportunities to view riders through the thousands of Crowdcast spectator cameras lining the race route. Crowdcast AI instantly parsed together images from thousands of cameras, passing off the feed to the next spectator camera as riders passed by. It works kind of like an inverse zoetrope. The larger the crowd, the better the results tend to be. We have full course coverage this year, and Crowdcasting has made the routes much safer. Gone are all those outstretched arms and selfie sticks holding the smartphones riders had to avoid in past tours. And, of course, the first-person camera views from riders were terrific!

Technology

AI-enabled, broadcast camera view parsing, mesh high-speed Wi-Fi with larger camera units, solar visor battery power augmentation for mesh Wi-Fi units, cranium shielding SafeWave technology, and a fully transparent capable display. Customizable crowd casting allows spectators to watch individual participants of their choice.

Implications

How might AI further enable compelling coverage of sporting events at large venues and over large distances via massive point-of-view crowdcasting?
What companies are well-positioned to provide the needed technologies to make crowdcasting possible?

Related Links

See the remarkable classic Zoetrope at speed work done to promote Forza’s racing game.

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