Editing 1425: Tasks

{{comic
| number    = 1425
| date      = September 24, 2014
| title     = Tasks
| image     = tasks.png
| titletext = In the 60s, Marvin Minsky assigned a couple of undergrads to spend the summer programming a computer to use a camera to identify objects in a scene. He figured they'd have the problem solved by the end of the summer. Half a century later, we're still working on it.
}}

==Explanation==
[[Cueball]] appears to be asking [[Ponytail]] to write an app that determines if a given picture is (1) taken in a national park, and (2) a picture of a bird. The first question is generally harder for a human to answer, but easy for an app that has access to location information and a {{w|geographic information system}} (GIS). The second one is easy for a human but much harder for a computer. This illustrates {{w|Moravec's paradox}} from the 1980s in a modern context. By the 1950s computers were useful for tasks like {{w|trajectory optimization}}, {{w|automated theorem proving|generating novel mathematical proofs}}, and {{w|English_draughts#Computer_players|the game of checkers}}, so such high-level computation and reasoning tasks that were hard for humans turned out to be relatively easy for them. On the other hand, it turns out to be hard to "give them the skills of a one-year-old when it comes to perception", as Moravec wrote.

In order to determine whether the user is in a national park, Ponytail plans to determine the user's location using the mobile device. This location will then be cross checked with a {{w|geographic information system}} (GIS) which will be able to determine whether the coordinates lie within a national park boundary.

Determining whether an image is of a given kind of natural object is far more difficult. This task falls into the area of {{w|computer vision}}. One of the goals in computer vision is to detect and classify objects within an image. This is a very challenging task for a number of reasons.

Firstly, humans use size, edge-assignment, movement, and stereoscopic vision when looking at a scene (not a picture of a thing, but the thing itself) to discern individual objects and then {{w|Figure-ground (perception)|categorize them as foreground or background}}. A photograph, however, is a static, monoscopic image that can only provide size and edge-assignment clues. Humans are only able to discern objects from background in photographs by comparing the photo against all of the things they've seen and everything they've learned about those things over the course of their life and {{w|Visual perception|identifying matching patterns}}.

Secondly, the quality of the photograph will have an impact on a computer's ability to match patterns. For example, the object in the photograph might be partially visible or occluded. In the case of a living bird, additional complications arise from the variations among individual birds of the same species and differences in pose (flying, perching in a tree, etc.). Differentiating between visually similar objects can result in false positives. For example, is it a photo of a bird in flight or a plane <s>(or superman!)</s>? Ponytail's estimate of 5 years may be overly optimistic (see [[678: Researcher Translation]]).

Today's state-of-the-art algorithms for solving this kind of task mostly use local features (e.g. {{w|Scale-invariant feature transform|SIFT}} or {{w|Speeded up robust features|SURF}} in combination with a {{w|support vector machine}}, or a {{w|convolutional neural network}}).

The subtitle refers to "CS", which is a common abbreviation for "{{w|Computer Science}}", of which {{w|artificial intelligence}} and {{w|computer vision}} are sub-disciplines.

The title text mentions [http://dspace.mit.edu/bitstream/handle/1721.1/6125/AIM-100.pdf The Summer Vision Project] and {{w|Marvin Minsky}} of MIT. In the summer of 1966, he asked his undergraduate student {{w|Gerald Jay Sussman}} to [http://szeliski.org/Book/ "spend the summer linking a camera to a computer and getting the computer to describe what it saw"]. {{w|Seymour Papert}} drafted the plan, and it seems that Sussman was joined by {{w|Bill Gosper}}, {{w|Richard Greenblatt (programmer)|Richard Greenblatt}}, {{w|Leslie Lamport}}, Adolfo Guzman, Michael Speciner, John White, Benjamin, and Henneman - in case the multiple Wikipedia links don't give it away, know that this is sizable cross-section of the AI researchers of the period). The project schedule allocated one summer for the completion of this task. The required time was obviously significantly underestimated, since dozens of research groups around the world are still working on this topic today.

A month after this comic came out, {{w|Flickr}} [http://code.flickr.net/2014/10/20/introducing-flickr-park-or-bird/ responded] with a [http://parkorbird.flickr.com/ prototype online tool] to do something similar to what the comic describes, using its automated-tagging software. According to them, the bird solution "took us less than 5 years to build, though it's definitely a hard problem, and we've still got room for improvement".

==Transcript==
:[Ponytail sitting at a computer with Cueball standing behind her.]
:Cueball: When a user takes a photo, the app should check whether they're in a national park...
:Ponytail: Sure, easy GIS lookup. Gimme a few hours.
:Cueball: ...and check whether the photo is of a bird.
:Ponytail: I'll need a research team and five years.

:[Caption below the panel:]
:In CS, it can be hard to explain the difference between the easy and the virtually impossible.


{{comic discussion}}
[[Category:Comics featuring Cueball]]
[[Category:Comics featuring Ponytail]]
[[Category:Artificial Intelligence]]
[[Category:Programming]]
[[Category:Photography]]
[[Category:Comics featuring real people]]