Future Narrative

After overcoming the economic and political fallout of the 2020 Global Pandemic, the United States government and several enlightened billionaires came together to fund the 21st Century Land Grant program. The goal was to improve land quality in the Western states, alleviate homelessness, raise living standards for agricultural workers, and foster a new and widespread American organic farming movement.

Before the 21st Century Land Grant Program was adopted in the United States, the post-pandemic politics of fear, divisiveness, and grifting had been exposed. Nothing was being produced, but more money for the wealthiest billionaires. California and neighboring states were the first to see tangible progress. California had the foresight to couple the Land Grant Program with the completion of the State Water Project, which had started in the 1960s and 1970s but was only half the size of the original project plan. The State’s completed water project network included a new “capillary system.” Fed by an extensive network of new reservoirs and waterways, the dense water network ensured deep storage reserves of seasonal rainfall and snow runoff.

Before the system was completed, excess water resources flowed unimpeded into the Pacific Ocean. Within 10 years of the water system’s completion, fundamental differences in land quality across California were visible. Once the arid land was transformed, it began supporting small-scale farming. Coupled with the 21st Century Land Grant initiative, California ensured that the State Water Project would interweave with the land granted to those who would sustainably work the land. Success in other states followed, but on a smaller scale.

Similar to the G.I. Bill extended to veterans of World War II, citizens could qualify for low-interest loans for 40-acre or 80-acre lots with guaranteed water rights. The only provisions were that grantees would assist with building their homes from certified modular factory-built home kits and agree to tend the land for at least 10 years. What sprang up was a latticework of mutually supporting small farmers like those seen during the great Western migration over two centuries earlier.

Companies producing modern and efficient kit homes that could easily be transported or airdropped to new land grant sites made healthy profits that they reinvested in their businesses as the demand for their “new homestead” housing boomed. New Land Grant Owners (or “New Landers” as they came to be known) and their efficient homes referred to as “Drop and Props” were connected by the timely, widespread availability of affordable 2-4 person Electric Vertical Takeoff and Landing (EVTOL) craft. This form of transportation drastically reduced transit times on the new frontier. Traveling “as the crow flies” was now possible, and neighbors with hundreds of acres of farmland between them were just minutes away from each other.

With plentiful clean water, crops, renewable energy, and satellite connectivity available, the 21st-century Land Grant arguably had an even more significant impact on the United States than the original land grant programs. While ensuring that plenty of wildlands remained across the United States, this new era of peace and prosperity, which was universally enjoyed, ultimately freed humankind to look to the stars again with renewed vigor for exploration.

Signals

New Sites reservoir to serve 7.5 million California residents.

An Aerial Tour of California’s State Water Project from California Department of Water Resources.

KQED Provides an Overview of California’s water System and Situation.

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

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

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

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

The war in Ukraine made the importance of drone and artillery defense clear to everyone. A groundbreaking planar wave technology emerged, leveraging acoustic wave energy and microwave emissions (A.W.E.M.E) to create barriers and protect troops from frontal or overhead attacks. Today, a downscaled version known commercially as the SoundSentinel™ safeguards crops from insects. Like bug zappers from years ago, the planar wave resonance eliminates specific pests as they pass over crops in the field.

In the agricultural sector, this acoustic barrier technology represents a significant advancement in pest control. Chemical pesticides or physical nets can harm the environment and are labor-intensive. Planar wave technology offers a sustainable and maintenance-free alternative. Applying tuned acoustic waves and microwaves to target specific insect species effectively eliminates pests from crops without harming beneficial insects or the surrounding ecosystem. This precise targeting reduces crop damage and increases yield, contributing to more efficient and eco-friendly farming practices.

In military applications, protective planar wave systems are stronger, sometimes leading to the acoustic capturing of smoke and flames, making the barrier temporarily visible. The invisibility of the protective barrier can be restored by briefly cycling the system and allowing smoke and flames to dissipate.

As with many technologies, acoustic and microwave barriers were developed in response to the intense need to protect troops in conflict. The technology then found its way into commercial agricultural applications. When deployed around a base, convoy, or troop formation, planar wave technology projects a plane of high-frequency sound and microwaves that disrupt incoming drones or ordinance. Multiple protective barriers can be deployed horizontally or vertically at various distances, providing full coverage for troops in the field. Forces can integrate planar wave technology into existing infrastructure or deploy it using power provided by armored vehicles that move with infantry units across the battle space, thus providing flexible and robust protection in various combat scenarios.

Implications

The versatility of this acoustic barrier technology lies in its ability to be finely tuned to specific frequencies and intensities, ensuring optimal effectiveness for various applications. As research and development continue, we can anticipate further enhancements, such as integrating artificial intelligence to dynamically adjust sound parameters based on real-time threats or pest behavior. This fusion of acoustic engineering and advanced algorithms promises to revolutionize military defense and agricultural protection, marking a significant leap forward in the use of non-lethal defense and sustainable crop technologies. However, the health of those using this technology must be safeguarded, and we must avoid unintended consequences such as additional noise pollution or interference with wildlife across wide green spaces.

Signs and Signals

Sound: Yet another way to smack down drones

Applications of acoustics in insect pest management

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

Future Narrative

I remember driving with my dad and occasionally passing by groups of those convicted of minor offenses serving their community service hours on a roadside cleanup crew. Back then, small groups wore hi-vis vests, carried trash bags, and picked up garbage along the roadways. A van or bus with a supervisor was somewhere nearby. That scene is very different today.

Things changed when we started to militarize law enforcement. It happened slowly yet intentionally. To save money, defense forces made obsolete MRAPS and other war vehicles available to police agencies at giveaway prices. These intimidating vehicles are now a part of our communities. Bakersfield resembles a war-torn Baghdad from a bygone era. Prisons are big business today, too. The prison is now the county's third-largest employer.

We also turned our backs on the climate accords and eliminated many environmental regulations that held corporations and individuals responsible for polluting. As a result, over the last 20 years, temperatures and the piles of trash along our roadways have continued to rise. Outdoor work crews must now be equipped with some form of cooling apparatus during the summer months. The garbage they come into contact with is far more dangerous to handle, too. Now, the government spends the money we were supposed to have saved by purchasing MRAP vehicles to equip those convicted of minor infractions with expensive disposable protective equipment, making it a relatively easy yet meaningful task to set up and supervise. Oh yeah, last year, our local city council approved cooling tent attachments for some of the MRAPs, which, ironically, makes them more expensive and polluting as they burn even more diesel fuel.

Seeing these work crews is becoming more common. Every time I pass one of these outfits on the side of the road, I am filled with a bit of fear for the future. The worst thing about all this is that I see the same fear on my son’s face, too.

Implications

To save money spent on decommissioning thousands of mine-resistant armored personnel carriers (MRAPs) produced for the conflicts in Iraq and Afghanistan, the Department of Defense provided police forces with the option of acquiring MRAPs at bargain basement prices. This, and other up-armoring efforts, led to a distinct militarization effect for many police forces across America. In a quest for efficiency, cost savings, and force protection, the days of the cop on the beat who was well-known by neighborhood citizens are long gone. What will be the long-term effects of depersonalizing and militarizing America’s policing forces?

Climate change will continue to accelerate without drastic action, rendering important outdoor tasks impossible without the use of expensive environmental mitigation suits. What will the additional human and economic cost of heating and cooling clothing be, and how will this impact workers' quality of life? Will this become a further contributor to climate change?

If we reduce or eliminate environmental protections, what will the consequences be for clean land, air, and water? How might we reinforce an era of personal and corporate environmental responsibility and accountability? Rather than stifling businesses, what new businesses and clean industries could be created to reverse global warming?

Signs and Signals

Trickle-Down Armor: Feds Donate MRAPs to Local Police Departments

How a rural US sheriff’s department was able to obtain a military-grade vehicle

MIT Research: A new way to quantify climate change impacts: “Outdoor days”

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.

Future Narrative

New wildfire seed globes containing water, seeds of plants native to our area, and fruit to support wildlife will be used during this coming fire season. The shell is as hard as a bowling ball until exposed to light or extreme heat. After a few days, the biodegradable material breaks down naturally and becomes more like a gel. Eventually, the globes burst, depositing seeds, water, or fruit on the soil.

My friend Jesse, a hotshot in Oregon, said they used them last year. She sent me some photos of seed globes dropped by a drone near a firebreak they had prepared. They worked remarkably well, and last Spring’s new growth in the burn areas was significant. Seed globes can even be used as emergency drinking water if supplies run low for crews on the line. Overall, it is great to see new wildfire-fighting tools co-existing with the forest while providing safety for wildland firefighting crews and our communities.

Technology

A dense, impact-resistant, biodegradable shell encapsulating seeds and water that breaks down upon exposure to extreme heat or light over time.

Implications

New ecosensitive wildfire-fighting tools will need to be developed to counter the increasing instances of wildfires, which are exacerbated by global warming, inadequate electrical grid maintenance, and irresponsible forest management.

Related Concepts and Research

This concept is somewhat of an inverse of this idea: education.nationalgeographic.org/resource/drones-shoot-fireballs-help-control-wildfires/

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