Kristel Van der Elst is the director general of Policy Horizons Canada, established by the Canadian government in 2010. The mission of Policy Horizons is to “help the Government of Canada develop future-oriented policy and programs that are more robust and resilient in the face of disruptive change on the horizon.” To achieve that goal, Policy Horizons engages “in conversations with public servants and citizens about forward-looking research to inform their understanding and decision making.” In other words, they want to tell me what’s coming whether I like it or not so that I can fall into line. Or, as they say, come to the right decisions. Van der Elst has deep ties with the World Economic Forum. She is part of a network of futurists connected to the World Economic Forum with no apparent home. They surface in different governmental agencies around the world. Van der Elst is also a fellow at the Center for Strategic Foresight of the U.S. Government Accountability Office. In Canada, she helps to coordinate foundations and corporations committed to biodigital convergence. Her writings and presentations on the future make me uncomfortable – scare the shit out of me. For Van der Elst, the future is already determined. Her job is to prepare the world for it. She has the confidence of somebody who knows that she has the support of the world’s rulers.
The vision of Policy Horizons is outlined in detail in the document Exploring Biodigital Convergence, published in February 2020. It is a fifty-eight-page document that cites a wide range of research into the field from around the world – the state of the art of transhumanism, genetic engineering, and managing the earth’s biological systems through centralized control. The material comes from published scientific papers and popular journals. The research all stands alone. It’s not easy to see how these research agendas are connected. I get the feeling that well-funded scientists are living and working in their own private bubbles; but someone must be coordinating this related work. Someone knows what research to fund. Perhaps for that reason, Van der Elst offers us a vision of the future that ties the research together. This is the future that we are headed towards whether we like it or not. She has been invited to Canada to make sure Canadians are informed in a post-Canada world. A world in which place doesn’t matter. We’ll be global citizens controlled centrally through AI.
This is Van der Elst’s dream of the future. After you’ve read it, I’ll offer just a few thoughts about where we’re all going and why covid is taking us there. This entire vision is based on the lie of covid. For this to realize, we’ll all need to be hacked. They are calling the technology that is hacking all humans into AI mediated through 5G a vaccine. It’s actually a hacking device. We should really start talking about being hacked rather than vaccinated. Here’s Van der Elst’s story. At the end, she will comment on it in italics. Then, I’ll offer a few thoughts.
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“I wake up to the sunlight and salty coastal air of the Adriatic Sea. I don’t live anywhere near the Mediterranean, but my AI, which is also my health advisor, has prescribed a specific air quality, scent, and solar intensity to manage my energy levels in the morning, and has programmed my bedroom to mimic this climate.
“The fresh bed sheets grown in my building from regenerating fungi are better than I imagined; I feel rested and ready for the day. I need to check a few things before I get up. I send a brain message to open the app that controls my insulin levels and make sure my pancreas is optimally supported. I can’t imagine having to inject myself with needles like my mother did when she was a child. Now it’s a microbe transplant that auto adjusts and reports on my levels.
“Everything looks all right, so I check my brain’s digital interface to read the dream data that was recorded and processed in real time last night. My therapy app analyzes the emotional responses I expressed while I slept. It suggests I take time to be in nature this week to reflect on my recurring trapped-in-a-box dream and enhance helpful subconscious neural activity.
“My AI recommends a “forest day”. I think “okay,” and my AI and neural implant do the rest.
“The summary of my bugbot surveillance footage shows that my apartment was safe from intruders (including other bugbots) last night, but it does notify me that my herd of little cyber-dragonflies are hungry. “They’ve been working hard collecting data and monitoring the outside environment all night, but the number of mosquitoes and lyme-carrying ticks they normally hunt to replenish their energy was smaller than expected. With a thought, I order some nutrient support for them.
“My feet hit the regenerative carpet and I grab a bathrobe, although I don’t need it for warmth. My apartment is gradually warming up to a comfortable 22 degrees, as it cycles through a constantly shifting daily routine that keeps me in balance with the time of day and season. Building codes and home energy infrastructure are synchronized, and require all homes be autoregulated for efficiency. Because houses and buildings are biomimetic and incorporate living systems for climate control wherever possible, they are continuously filtering the air and capturing carbon. I check my carbon offset measure to see how much credit I will receive for my home’s contribution to the government’s climate change mitigation program.
“As I head to the bathroom, I pause at the window to check the accelerated growth of the neighbouring building. Biological architecture has reached new heights and the synthetic tree compounds are growing taller each day. To ensure that the building can withstand even the strongest winds – and to reduce swaying for residences on the top floors – a robotic 3D printer is clambering around the emerging structure and adding carbon-reinforced biopolymer, strengthening critical stress points identified by its AI-supported sensor array. I am glad they decided to tree the roof of this building with fire-resistant, genetically modified red cedar, since urban forest fires have become a concern.
“While I’m brushing my teeth, Jamie, my personal AI, asks if I’d like a delivery drone to come pick up my daughter’s baby tooth, which fell out two days ago. The epigenetic markers in children’s teeth have to be analyzed and catalogued on our family genetic blockchain in order to qualify for the open health rebate, so I need that done today.
“I replace the smart sticker that monitors my blood chemistry, lymphatic system, and organ function in real time. It’s hard to imagine the costs and suffering that people must have endured before personalized preventative medicine became common.
“Also, I’ll admit that it sounds gross, but it’s a good thing the municipality samples our fecal matter from the sewage pipes. It’s part of the platform to analyze data on nutritional diversity, gut bacteria, and antibiotic use, to aid with public health screening and fight antibiotic-resistant strains of bacterial infections.
“Supposedly, the next download for my smart sink will allow me to choose a personalized biotic mix for my dechlorinated drinking water.
“Today’s microbiome breakdown is displayed on the front of my fridge as I enter the kitchen. It’s tracking a steady shift as I approach middle age: today it suggests miso soup as part of my breakfast, because my biome needs more diversity as a result of recent stress and not eating well last night.
“The buildings in my neighbourhood share a vertical farm, so I get carbon credits by eating miso made from soybeans produced on my roof and fermented by my fridge.
“My fridge schedules the production of more miso and some kimchi in preparation for the coming week. It also adds immune-boosting ingredients to my grocery order because we’re approaching flu season, and a strain that I’m likely to be susceptible to has been detected only a few blocks away.
“I take my smart supplement, which just popped out of my bioprinter. The supplement adjusts the additional nutrients and microbes I need, and sends data about my body back to my bioprinter to adjust tomorrow’s supplement. The feedback loop between me and my bioprinter also cloud-stores daily data for future preventive health metrics. The real-time monitoring of my triglycerides is important, given my genetic markers.
“As my coffee pours, I check my daughter’s latest school project, which has been growing on the counter for the past week. She’s growing a liver for a local puppy in need as part of her empathy initiative at school. More stem cells are on the way to start a kidney too, because she wants to help more animals. I grab my coffee, brewed with a new certified carbon-negative bean variety, and sit on the couch for a minute.
“It appears the nutrient treatment I had painted on the surface of the couch and chairs has allowed them to rejuvenate.
“I’ll have to try the treatment on my bioprinted running shoes, as they’re starting to wear out.
“Oh wow – is that the time? I have only 10 minutes before my first virtual meeting. I tighten the belt on my skeleto-muscular strength chair, lean back, and log into my workspace. First I get the debrief from colleagues finishing their work day on the other side of the world. I shiver momentarily as I think about how intimately we’re all connected in this digital biosphere – then it passes. Let the day begin.
“This story may sound far-fetched, however all the technologies mentioned exist in some form today. While they are not yet commercially available in the form presented here, a world where we take the interaction between biological and digital technologies for granted is already starting to emerge.
“While this is a representation of technologies that could be part of a biodigital world, it does not represent the only plausible future. Rather, it is an imaginative vignette outlining the radical shifts that could take place within an optimistic biodigital future. Varying levels of access, adoption, and alternative realities could exist.”
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Back to me.
I’m only going to comment on the beginning of the story. I’ll let each reader analyze the rest of it on their own.
Her AI is her health advisor. It has prescribed a certain geographical place for her, thousands of kilometers from where she actually lives. There is no more “place” in the coming world. Her AI is managing her energy levels. It knows how to optimize her energy levels. She has handed control of her emotional and psychological life to artificial intelligence. How does it know this about her?
She is in communication with her AI through brain messages. That means that they send and receive messages. She has a microbial transplant to monitor and adjust her insulin levels. She’s so happy about it. However, the human body, in health, adjusts insulin levels on the fly. Instead of asking why she is insulin resistant and working towards a healthy lifestyle, she has handed power over to a system of artificial intelligence and a biodigital implant. Why is the AI not smart enough to ask about the cause of her diabetes? Who programmed the AI? Like all of the transhumanist agenda, this is based on contempt for nature. The transhumanist proponents believe that biological systems are simple; that it is possible to run a human “system” through a computer. But a healthy human being doesn’t need to be “run.” It runs itself.
How would you like to be in charge of your own body? Meaning: how would you like to manage all of the interconnected biochemical and electromagnetic reactions and processes going on inside of you in every instant of time. Trillions every instant. Why would you want to? It is a noble undertaking to try to understand how our body works. But to take the wheel? Not to worry: someone else is going to be driving. You’re just meant to sit back and enjoy the ride. Are you still apprehensive? Never mind: it’s a computer that’s going to be in charge. An algorithm. If that somehow comforts you, then I think you’re nuts.
AI needs to be fed. It eats and processes data. Since the lockdowns began, we’ve been feeding AI. I suspect that one of the main purposes of the lockdowns has been to accumulate data – our data – and feed AI with it. Since we’re all at home, forbidden to talk in person to our friends and family, we communicate digitally, by cellphone, e-mail, or social media. AI is gorging itself on all of that. Children have been pursuing their education online. Every keystroke and search is going into the mainframe. AI is learning all about us.
With the continuing rollout of 5G, all of the “vaccinated” have been fitted with graphene oxide, a biosensor that either is now, or soon will be, sending and receiving data between our bodies and the mainframe. So, the rulers have hacked us – people have lined up to be hacked – to feed AI about our most intimate physiological and psychological details. We are not consciously aware of the things that AI is learning about us.
I have a question. What happens when AI figures out that the rulers are misguided? Will it be able to discover that? It may take generations before AI figures out that humans living on artificial food are unhealthy. One of the problems will be that AI will never have access to humans or any other lifeform living in a state of equilibrium with the earth. In other words, the artificial atmosphere created for Van der Elst is not situated in any place on earth. She is of nowhere. But people who live somewhere are part of their environment.
People need to be graphenated – or fitted with some other biosensor – in order to communicate with AI. However, the very act of hacking the human changes us. People who refuse the hack (that the rulers and simpletons are calling the vaccine) cannot be part of this new system. So, how will AI figure out that they are healthy when all of the data is collected from the hacked?
Let’s say that the rulers are successful in hacking (vaccinating) all the world’s population. By then, the 5G system of satellites will blanket the earth and collect data from everybody. The Hadza people in Africa are hacked, but they continue to live in keeping with their ancestral traditions, as they have for thousands of generations. They hunt and gather. Let’s even imagine that they are able to resist the worst effects of the graphene oxide that pollutes their system. In any case, all humans are now weakened by the intrusion, so, relative to other humans living on artificial food, the Hadza are still ahead of the game. Their gut microbiomes (as well as all of their microbiomes) remain diverse in microbes absorbed from their plant and animal diet. And the Hadza remain immune to the diseases of civilization. No cancers. No diabetes. No autoimmune diseases. (As is the case today.) Presumably, AI will be able to figure out that their lifestyle and diet are superior to that of the civilized living a sedentary life on artificial foods. If the algorithm is actually programmed to maximize health.
To whom will AI report this conclusion? When AI concludes that food grown in living soil, rather than dirt treated with a few artificial chemicals, is far more nutritious, what will the rulers do? When AI concludes that living soil on the great savannas of the world is the result of herbivores and their predators (including humans) having free reign, what will the world’s landowners – Bill Gates, Jeff Bezos, BlackRock, and Vanguard – do? When AI understands that humans are healthiest when they grow their own food in healthy soil and maximum plant diversity, rather than monocultures of annual grains, what will Bayer do? What will the rulers do when AI concludes that humans, like all lifeforms, need to be integrated into their place?