As already mentioned, the general idea of applying robotics to the detailed management of productive land has been batting around in my head for years, and I've gone on about it at some length on various occasions, generally behind the walls of The WELL.
Not all of The WELL hides behind a wall, of course. (see "Guest-readable Conferences"), and, as it happens, one recent example (see last paragraph) happened in a world-viewable conference.
Monday, October 16, 2006
Thursday, September 28, 2006
cultibotics group
There's been some recent activity in the Cultibotics Group, so I'm now pondering how to handle both a group and a blog.
I think what's going to happen is that the blog becomes a condensed version of what's posted in the group, with new material occasionally appearing here first, but not necessarily so.
I'll aim to keep the information density high here; that much I'm sure of.
I think what's going to happen is that the blog becomes a condensed version of what's posted in the group, with new material occasionally appearing here first, but not necessarily so.
I'll aim to keep the information density high here; that much I'm sure of.
Sunday, September 10, 2006
open source robotics toolkits
IBM developerWorks is a great resource.
This article discusses open source software for modeling and testing robotic designs in software.
(Found on AI Buzz.)
This article discusses open source software for modeling and testing robotic designs in software.
(Found on AI Buzz.)
four football fields...every single blade of grass
Think I'm crazy in suggesting in suggesting that a machine could track every single plant over an area of several acres? This Digg item says this experimental camera can image "every single blade of grass" over an area of "four football fields" in one shot.
Granted that they're using chemical film in the camera itself, but that film is scanned as soon as it's processed, and all subsequent image manipulation is done digitally. The file resulting from a full-resolution scan of one such film is 24 GB, which does push the limits of current technology a bit.
While really not at all the same as what a cultibot would do in cataloging all of the plants within the area it tended, this does suggest that the level of complexity involved is within the reach of either current technology or what's just around the corner. Maybe the database for a five-acre plot would occupy a few terabytes, but even that isn't unmanageable.
Granted that they're using chemical film in the camera itself, but that film is scanned as soon as it's processed, and all subsequent image manipulation is done digitally. The file resulting from a full-resolution scan of one such film is 24 GB, which does push the limits of current technology a bit.
While really not at all the same as what a cultibot would do in cataloging all of the plants within the area it tended, this does suggest that the level of complexity involved is within the reach of either current technology or what's just around the corner. Maybe the database for a five-acre plot would occupy a few terabytes, but even that isn't unmanageable.
Saturday, September 09, 2006
robotics in transportation
While my primary interest in robotics is as it relates to horticulture and agriculture, I've also long been interested in the potential utility of robotics in urban transportation, especially when combined with a different sort of infrastructure from what we now have.
So when I saw a pointer to a Spiegel article titled Bringing Robot Transportation to Europe on Slashdot, I had to see what it was about.
As it turns out, that article describes a type of system which the Innovative Transportation Technologies website has been tracking for a decade.
So when I saw a pointer to a Spiegel article titled Bringing Robot Transportation to Europe on Slashdot, I had to see what it was about.
As it turns out, that article describes a type of system which the Innovative Transportation Technologies website has been tracking for a decade.
Wednesday, August 23, 2006
what's happening in robotics
There are too many robotics related websites to catalog them all. Here are few of them...
IEEE Robotics and Automation Society's Technical Committee on Service Robots website contains a page dedicated to Agriculture & Harvesting Robots, with many links to related activities around the world.
Arrick Robotics's website has a long list of robotics clubs. One of those, the San Francisco Robotics Society of America has a particularly interesting website.
Robots.net, Robot Gossip, and GoRobotics.net are robotics news blogs.
Artificial Intelligence News, just what it says it is.
I only plan to cover developments which are at least plausibly related to the application of robotics to crop cultivation, except perhaps as a bit of news is so compelling that I can't help but mention it.
IEEE Robotics and Automation Society's Technical Committee on Service Robots website contains a page dedicated to Agriculture & Harvesting Robots, with many links to related activities around the world.
Arrick Robotics's website has a long list of robotics clubs. One of those, the San Francisco Robotics Society of America has a particularly interesting website.
Robots.net, Robot Gossip, and GoRobotics.net are robotics news blogs.
Artificial Intelligence News, just what it says it is.
I only plan to cover developments which are at least plausibly related to the application of robotics to crop cultivation, except perhaps as a bit of news is so compelling that I can't help but mention it.
Tuesday, August 22, 2006
on the meaning of "cultivation"
As it commonly applies to raising plants, "cultivation" usually refers to a process involving the manipulation of soil, to incorporate plant residues into the soil after the previous harvest, to prepare a seedbed for new planting, or between the rows of a growing crop to suppress weeds. That aspect, the manipulation of soil, isn't particularly emphasized, it's just assumed, like breathing; it's seen as being inextricably part of the process, not every time the farmer enters a field, but sooner or later, and repeatedly. "Tillage" is a synonym for this sense of the word.
There's a more general sense of "cultivation" that simply refers to raising plants, and which applies as much to the practices of nomadic tribes, involving no more tillage than poking seed holes in the ground with a sharp stick, as it does to agriculture as it is commonly practiced today.
It's that second, more general sense of the word that's intended here, as the potential advantages of using robotics in horticulture and agriculture stem largely from making it possible to dispense with the other sense of the word, tillage.
That's not to say that a cultibot wouldn't perform soil manipulation, rather what's expected is that it will resemble what a gardener performs with a hoe, trowel, and (occasionally) shovel, instead of what a farmer performs with a plow, and that the total amount of energy involved in performing it will be a small fraction of what the current practice of farming consumes -- and the rate of energy consumption even lower, since autonomous operation will allow it to be distributed over more time, perhaps even 24/7. (This combination of lower energy requirements and more time should make solar panels a practical power source.)
There's yet another sense of the word, as it applies reflexively or to human relationships, as in the cultivation of patience or friendship, which should at least inform how the vision of cultibotics is understood. In its fully realized state, a cultibot would not only raise plants and produce food, but it would tend the land in all its aspects, specifically including as it also serves as habitat for wild species, both plants and animals. This could be seen as cultivating a field's participation in the larger environment, making a little room among the crops for other life.
There's a more general sense of "cultivation" that simply refers to raising plants, and which applies as much to the practices of nomadic tribes, involving no more tillage than poking seed holes in the ground with a sharp stick, as it does to agriculture as it is commonly practiced today.
It's that second, more general sense of the word that's intended here, as the potential advantages of using robotics in horticulture and agriculture stem largely from making it possible to dispense with the other sense of the word, tillage.
That's not to say that a cultibot wouldn't perform soil manipulation, rather what's expected is that it will resemble what a gardener performs with a hoe, trowel, and (occasionally) shovel, instead of what a farmer performs with a plow, and that the total amount of energy involved in performing it will be a small fraction of what the current practice of farming consumes -- and the rate of energy consumption even lower, since autonomous operation will allow it to be distributed over more time, perhaps even 24/7. (This combination of lower energy requirements and more time should make solar panels a practical power source.)
There's yet another sense of the word, as it applies reflexively or to human relationships, as in the cultivation of patience or friendship, which should at least inform how the vision of cultibotics is understood. In its fully realized state, a cultibot would not only raise plants and produce food, but it would tend the land in all its aspects, specifically including as it also serves as habitat for wild species, both plants and animals. This could be seen as cultivating a field's participation in the larger environment, making a little room among the crops for other life.
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