this will clean up at thrice the rate. and then our models show that if we then deploy roughly ten of those systems, we can actually clean up most of the great pacific garbage patch by the end of the decade. so rivers really are the arteries that carry trash from land to sea. so when it rains, plastic washes from streets into creeks, into rivers and then ultimately to the ocean. so we have developed a collection of technologies we call interceptors, which are automated systems that we put in the mouth of rivers and that catches the trash before it reaches the oceans. kind of our flagship tool in our toolkit is what we call the interceptor original, which is this solar—powered autonomous robot, essentially, that has these conveyor belts to automatically scoop out the trash. distribute it in dumpsters and then when it's full, you can empty it and essentially keep cleaning. we've developed these ai—powered cameras.
technology we call system 03. we're deploying that in the summer of 2023. we are making the system three times as big, so 2,400 metres. this will clean up at thrice the rate. and then our models show that if we deploy roughly ten of those systems, we can actually clean up most of the great pacific garbage patch by the end of the decade. so rivers really are the arteries that carry trash from land to sea. so when it rains, plastic washes from streets into creeks into rivers and then ultimately to the ocean. so we have developed a collection of technologies we call interceptors, which are automated systems that we put in the mouth of rivers, and that catches the trash before it reaches the oceans. our flagship tool in our toolkit is what we call the interceptor original, which is this solar—powered autonomous robot, essentially, that has these conveyor belts to automatically scoop out
of plastic, which is 0.2% of the whole great pacific garbage patch. we are still developing the next generation of cleaning technology, we call system three. we're deploying that in the summer of 2023. we are making the system three times as big, so 2,400 metres. this will clean up at thrice the rate. and then our models show that if we then deploy roughly ten of those systems, we can actually clean up most of the great pacific garbage patch by the end of the decade. so rivers really are the arteries that carry trash from land to sea. so when it rains, plastic washes from streets into creeks, into rivers and then ultimately to the ocean. so we have developed a collection of technologies we call interceptors, which are automated systems that we put in the mouth of rivers and that catches the trash before it reaches the oceans. kind of our flagship tool in our toolkit is what we call
widespread everyday regular nature of that communication. actually it's important to say that at this time, only 2020, early on in the pandemic, it makes sense to be communicating in this way because people weren't able to meet. most people were in lockdown, it was an easy way of getting information around and i don't think there's anything inherently bad about the use of whatsapp by government. what it is showing is how it's managed, how it's made transparent so that we can understand how those decisions were made. �* , ., ~ understand how those decisions were made. �*, ., ~ ., understand how those decisions were made. �*, . ~ ., , ., ., made. let's talk a bit about that. it's a quick _ made. let's talk a bit about that. it's a quick way — made. let's talk a bit about that. it's a quick way of— made. let's talk a bit about that. | it's a quick way of communicating made. let's talk a bit about that. i it's a quick way of communicating at the time when people couldn't meet, it was an effective way of communicating. but looking at this more broadly, when people are able to meet physically, is this the way to meet physically, is this the way to do government business? i think it's a way to — to do government business? i think it's a way to do _ to do government business? i think it's a way to do it. _ to do government business? i think it's a way to do it. i _ to do government business? i think it's a way to do it. i don't _ to do government business? i think it's a way to do it. i don't think- it's a way to do it. i don't think there's anything wrong with it being part of the toolkit used in
actually clean up most of the great pacific garbage patch by the end of the decade. so rivers really are the arteries that carry trash from land to sea. so when it rains, plastic washes from streets into creeks, into rivers and then ultimately to the ocean. so we have developed a collection of technologies we call interceptors, which are automated systems that we put in the mouth of rivers and that catches the trash before it reaches the oceans. kind of our flagship tool in our toolkit is what we call the interceptor original, which is this solar—powered autonomous robot, essentially, that has these conveyor belts to automatically scoop out the trash. distribute it in dumpsters and then when it's full, you can empty it and essentially keep cleaning. we've developed these ai—powered cameras. and what we do is we attach these to bridges, and what it
we are making the system three times as big, so 2,400 metres. this will clean up at thrice the rate. and then our models show that if we then deploy roughly ten of those systems, we can actually clean up most of the great pacific garbage patch by the end of the decade. so rivers really are the arteries that carry trash from land to sea. so when it rains, plastic washes from streets into creeks, into rivers and then ultimately to the ocean. so we have developed a collection of technologies we call interceptors, which are automated systems that we put in the mouth of rivers and that catches the trash before it reaches the oceans. kind of our flagship tool in our toolkit is what we call the interceptor original, which is this solar—powered autonomous robot, essentially, that has these conveyor belts to automatically scoop out the trash.
great pacific garbage patch by the end of the decade. so, rivers really are the arteries that carry trash from the land to sea. so when it rains, plastic washes from streets into creeks into rivers and then, ultimately, to the ocean. so we have developed a collection of technologies we call interceptors, which are automated systems that we put in the mouth of rivers, and that catches the trash before it reaches the oceans. our flagship tool in our toolkit is what we call the interceptor original, which is this solar—powered autonomous robot, essentially, that has these conveyor belts to automatically scoop out the trash, distribute it in dumpsters, and then when it's full, you can empty it and, essentially, keep cleaning. soto determine where we can best place our clean—up systems, we are intercepting 11 rivers, but, ultimately, aim to scale this to all 1,000 heaviest polluting rivers in the world, which jointly contribute about 80% of all the plastic pollution
at thrice the rate. and then our models show that if we deploy roughly ten of those systems, we can actually clean up most of the great pacific garbage patch by the end of the decade. so rivers really are the arteries that carry trash from land to sea. so when it rains, plastic washes from streets into creeks into rivers and then ultimately to the ocean. so we have developed a collection of technologies we call interceptors, which are automated systems that we put in the mouth of rivers, and that catches the trash before it reaches the oceans. our flagship tool in our toolkit is what we call the interceptor original, which is this solar—powered autonomous robot, essentially, that has these conveyor belts to automatically scoop out the trash, distribute it in dumpsters, and then when it's full, you can empty it and essentially keep cleaning.
this will clean up at thrice the rate. and then our models show that if we deploy roughly ten of those systems, we can actually clean up most of the great pacific garbage patch by the end of the decade. so rivers really are the arteries that carry trash from land to sea. so when it rains, plastic washes from streets into creeks into rivers and then ultimately to the ocean. so we have developed a collection of technologies we call interceptors, which are automated systems that we put in the mouth of rivers, and that catches the trash before it reaches the oceans. our flagship tool in our toolkit is what we call the interceptor original, which is this solar—powered autonomous robot, essentially, that has these conveyor belts to automatically scoop out the trash, distribute it in dumpsters, and then when it when it's full, you can empty it and essentially
so when it rains, plastic washes from streets into creeks into rivers and then, ultimately, to the ocean. so we have developed a collection of technologies we call interceptors, which are automated systems that we put in the mouth of rivers, and that catches the trash before it reaches the oceans. our flagship tool in our toolkit is what we call the interceptor original, which is this solar—powered autonomous robot, essentially, that has these conveyor belts to automatically scoop out the trash, distribute it in dumpsters, and then when it's full, you can empty it and, essentially, keep cleaning. we can aim to scale this to the heaviest — we can aim to scale this to the heaviest polluters in the world with jointly contribute about 80% — with jointly contribute about 80% of _ with jointly contribute about 80% of all the plastic flowing