Bliss Chapman

in terms of like cursor control and signal and all that kind of stuff to like life experience yeah so there's hardware changes but also just just firmware updates um so even even when we um you know had had that sort of recovery event for nolan uh you know he now has the new firmware that that he um has been updated with and

in terms of like cursor control and signal and all that kind of stuff to like life experience yeah so there's hardware changes but also just just firmware updates um so even even when we um you know had had that sort of recovery event for nolan uh you know he now has the new firmware that that he um has been updated with and

It's similar to how your phones get updated all the time with new firmwares for security patches, whatever new functionality, UI, right? And that's something that is possible with our implant. It's not a static one-time device that can only do the thing that it said it can do. I mean, similar to Tesla, you can do over-the-air firmware updates and now you have completely new user interface.

It's similar to how your phones get updated all the time with new firmwares for security patches, whatever new functionality, UI, right? And that's something that is possible with our implant. It's not a static one-time device that can only do the thing that it said it can do. I mean, similar to Tesla, you can do over-the-air firmware updates and now you have completely new user interface.

It's similar to how your phones get updated all the time with new firmwares for security patches, whatever new functionality, UI, right? And that's something that is possible with our implant. It's not a static one-time device that can only do the thing that it said it can do. I mean, similar to Tesla, you can do over-the-air firmware updates and now you have completely new user interface.

All this bells and whistles and improvements on everything, like the latest, right? That's, you know, when we say generalized platform, that's what we're talking about.

All this bells and whistles and improvements on everything, like the latest, right? That's, you know, when we say generalized platform, that's what we're talking about.

All this bells and whistles and improvements on everything, like the latest, right? That's, you know, when we say generalized platform, that's what we're talking about.

Yeah. And what else is there? Yeah, those are still in the realm of movement. So largely speaking, we have two programs. We have the movement program and we have the vision program. The movement program currently is focused around the digital freedom. As you can easily guess, if you can control 2D cursor in the digital space, you could move anything in the physical space.

Yeah. And what else is there? Yeah, those are still in the realm of movement. So largely speaking, we have two programs. We have the movement program and we have the vision program. The movement program currently is focused around the digital freedom. As you can easily guess, if you can control 2D cursor in the digital space, you could move anything in the physical space.

Yeah. And what else is there? Yeah, those are still in the realm of movement. So largely speaking, we have two programs. We have the movement program and we have the vision program. The movement program currently is focused around the digital freedom. As you can easily guess, if you can control 2D cursor in the digital space, you could move anything in the physical space.

So robotic arms, wheelchair, your environment, or even really like whether it's through the phone or just like directly to those interfaces. So like to those machines. So we're looking at ways to kind of expand those types of capability, even for Nolan. That requires, you know, conversation with the FDA and kind of showing safety data for,

So robotic arms, wheelchair, your environment, or even really like whether it's through the phone or just like directly to those interfaces. So like to those machines. So we're looking at ways to kind of expand those types of capability, even for Nolan. That requires, you know, conversation with the FDA and kind of showing safety data for,

So robotic arms, wheelchair, your environment, or even really like whether it's through the phone or just like directly to those interfaces. So like to those machines. So we're looking at ways to kind of expand those types of capability, even for Nolan. That requires, you know, conversation with the FDA and kind of showing safety data for,

you know, if there's a robotic arm or a wheelchair that, you know, we can guarantee that they're not going to hurt themselves accidentally. Right. Um, it's very different if you're moving stuff in the, in the digital domain versus like in the physical space, you can actually, um, potentially cause harm to the participants. Um, so we're working through that right now.

you know, if there's a robotic arm or a wheelchair that, you know, we can guarantee that they're not going to hurt themselves accidentally. Right. Um, it's very different if you're moving stuff in the, in the digital domain versus like in the physical space, you can actually, um, potentially cause harm to the participants. Um, so we're working through that right now.

you know, if there's a robotic arm or a wheelchair that, you know, we can guarantee that they're not going to hurt themselves accidentally. Right. Um, it's very different if you're moving stuff in the, in the digital domain versus like in the physical space, you can actually, um, potentially cause harm to the participants. Um, so we're working through that right now.

Um, speech does involve different areas of the brain. Speech prosthetic is very, very fascinating. And there's actually been a lot of really, um, amazing work that's been happening in academia. You know, Sergei Stavitsky at UC Davis, Jamie Henderson, and, you know, late Krishna Shinoy at Stanford are doing just some incredible amount of work in improving speech neuroprosthetics. And

Um, speech does involve different areas of the brain. Speech prosthetic is very, very fascinating. And there's actually been a lot of really, um, amazing work that's been happening in academia. You know, Sergei Stavitsky at UC Davis, Jamie Henderson, and, you know, late Krishna Shinoy at Stanford are doing just some incredible amount of work in improving speech neuroprosthetics. And

Um, speech does involve different areas of the brain. Speech prosthetic is very, very fascinating. And there's actually been a lot of really, um, amazing work that's been happening in academia. You know, Sergei Stavitsky at UC Davis, Jamie Henderson, and, you know, late Krishna Shinoy at Stanford are doing just some incredible amount of work in improving speech neuroprosthetics. And