Archive for Sci & Tech

Mobile OCR input: “Fully automatic” and reality

Recently I’ve been toying around with WordSnap OCR (project page, source code, app on Android Market), an app for OCR-based camera input on Android. In the process, I found out a few things about “smart” versus “fast”.

At least in data mining, “fully automatic” is an often unquestioned holy grail.  There are certainly several valid reasons for this, such as if you’re trying to scan huge collections of books such as this, or index images from your daily life like this.  In this case, you use all the available processing power to make as few errors as possible (i.e., maximize accuracy).

However, if the user is sitting right in front of your program, watching your algorithms and their output, things are a little different. No matter how smart your algorithm is, some errors will occur. This tends to annoy users. In that sense, actively involved users are a liability. However, they can also be an asset: since they’re sitting there anyway, waiting for results, you may as well get them really involved. If you have cheap but intelligent labor ready and willing, use it! The results will be better or, at the very least, no worse.  Also, users tend to remember the failures. So, even if end results were similar on average, allowing users to correct failures as early as possible will make them happier.

Instead of making algorithms as smart as possible, the goal now is to make them as fast as possible, so that they produce near-realtime results that don’t have to be perfect; they just shouldn’t be total garbage. When I started playing with the idea for WordSnap, I was thinking how to make the algorithms as smart as possible.  However, for the reasons above, I soon changed tactics.

The rest of this post describes some of the successful design decisions but,  more importantly, the failures in the balance between “automatic” and “realtime guidance”. The story begins with the following example image:

Original image

Incidentally, this image was the inspiration for WordSnap: I wanted to look up “inimical” but I was too lazy to type. Also, for the record, WordSnap uses camera preview frames, which are semi-planar YUV data at HVGA resolution (480×320). This image is a downsampled (512×384) full-resolution photograph taken with the G1 camera (2048×1536); most experiments here were performed before WordSnap existed in any usable form. Finally, I should point out that OCR isn’t really my area; what I describe below is based on common sense rather than knowledge of prior art, although just before writing this post I did try a quick review of the literature.

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Hello Android

After blabbering about Android, I decided to get my hands a little dirty and actually write some code. For various reasons, I won’t describe the app (it was a “weekend hack” anyway), but hopefully my first impressions will be clear even without a specific context. Read the rest of this entry »

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Revised thoughts on Android

The post I wrote a few days ago about Android is all over the place. The right elements are in that post, but my composition and conclusions are somewhat incoherent. Perhaps I have been partly infected by the conventional thinking (of, e.g., various older, big corporations) and missed the obvious. Read the rest of this entry »

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On data ownership in a networked world

Every piece of content has a creator and owner (in this post, I will assume they are by default the same entity). I do not mean ownership in the traditional sense of, e.g., stashing a piece of paper in a drawer, but in the metaphysical sense that each artifact is forever associated with one or more “creators.”

This is certainly true of the end-products of intellectual labor, such as the article you are reading. However, it is also true of more mundane things, such as checkbook register entries or credit card activity. Whenever you pay a bill or purchase an item, you implicitly “create” a piece of content: the associated entry in your statement.  This has two immediately identifiable “creators”: the payer (you) and the payee.  The same is true for, e.g., your email, your IM chats, your web searches, etc. Interesting tidbit: over 20% of search terms entered daily in Google are new, which would imply roughly 20 million new pieces of content per day, or over 7 billion (over twice the earth’s population) per year—all this from just one activity on one website.

When I spend a few weeks working on, say, a research paper, I have certain expectations and demands about my rights as a “creator.” However, I give almost no thought to my rights on the trail of droppings (digital or otherwise) that I “create” each day, by searching the web, filling up the gas tank, getting coffee, going through a toll booth, swiping my badge, and so on.  However, with the increasing ease of data collection and distribution in digital form, we should re-think our attitudes towards “authorship”.

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First thoughts on Android

Update: I’ll keep this post for the record, even though I’ve completely changed my mind.

T-Mobile G1I recently upgraded to a T-Mobile G1 (aka. HTC Dream), running Android.  The G1 is a very nice and functional device. It’s also compact and decent looking, but perhaps not quite a fashion statement: unlike the iPhone my girlfriend got last year, which was immediately recognizable and a stare magnet, I pretty much have to slap people on the face with the G1 to make them look at it.  Also, battery life is acceptable, but just barely.  But this post is not about the G1, it’s about Android, which is Google’s Linux-based, open-source mobile application platform.

I’ll start with some light comments, by one of the greatest entertainers out there today: Monkey Boy made fun of the iPhone in January, stating that “Apple is selling zero phones a year“. Now he’s making similar remarks about Android, summarized by his eloquent “blah dee blah dee blah” argument.  Less than a year after that interview, the iPhone is ahead of Windows Mobile in worldwide market share of smartphone operating systems (7M versus 5.5M devices). Yep, this guy sure knows how entertain—even if he makes a fool of himself and Microsoft.

Furthermore, Monkey Boy said that “if I went to my shareholder meeting […] and said, hey, we’ve just launched a new product that has no revenue model! […] I’m not sure that my investors would take that very well. But that’s kind of what Google’s telling their investors about Android.”  Even if this were true, perhaps no revenue model is better than a simian model.

Anyway, someone from Microsoft should really know better—and quite likely he does, but can’t really say it out loud. There are some obvious parallels between Microsoft MS-DOS and Google Android: Read the rest of this entry »

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Randy Pausch in CACM

The September issue of CACM has a one-page, seven-question interview with Randy Pausch. It is definitely worth reading, so I’ll give you a sneak peek (unfortunately, CACM is not “open access”):

What about advice for CS teachers and professors?

That it’s time for us to start being more honest with ourselves about what our field is and how we should approach teaching it. Personally, I think that if we had named the field “Information Engineering” as opposed to “Computer Science,” we would have had a better culture for the discipline. For example, CS departments are notorious for not instilling concepts like testing and validation the way many other engineering disciplines do.

Is there anything you wish someone had told you before you began your own studies?

Just that being technically strong is only one aspect of an education.

[…]

Alice has proven phenomenally successful at teaching young women, in particular, to program. What else should we be doing to get more women engaged in computer science?

Well, it’s important to note that Alice works for both women and men. I think female-specific “approaches” can be dangerous for lots of reasons, but approaches like Alice, which focus on activities like storytelling, work across gender, age, and cultural background. It’s something very fundamental to want to tell stories. And Caitlin Kelleher’s dissertation did a fantastic job of showing just how powerful that approach is.

The interview was conducted a few weeks before his death. I’ll just say that, somehow, I suspect someone not in his position would never have said at least one of these things.  It’s a sad thought, but Randy’s message is, as always, positive.

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Data harvesting with MapReduce

Combine harvesters
(original image source)

“The combine harvester, […] is a machine that combines the tasks of harvesting, threshing and cleaning grain crops.” If you have acres upon acres of wheat and want to separate the grain from the chaff, a group of combines is what you really want. If you have a bonsai tree and want to trim it, a harvester may be less than ideal.

MapReduce is like a pack of harvesters, well-suited for weeding through a huge volumes of data, residing on a distributed storage system. However, a lot of machine learning work is more akin to trimming bonsai into elaborate patterns. Vice versa, it’s not uncommon to see trimmers used to harvest a wheat field. Well-established and respected researchers, as recently as this year write in their paper “Planetary Scale Views on a Large Instant-messaging Network“:

We gathered data for 30 days of June 2006. Each day yielded about 150 gigabytes of compressed text logs (4.5 terabytes in total). Copying the data to a dedicated eight-processor server with 32 gigabytes of memory took 12 hours. Our log-parsing system employed a pipeline of four threads that parse the data in parallel, collapse the session join/leave events into sets of conversations, and save the data in a compact compressed binary format. This process compressed the data down to 45 gigabytes per day. Processing the data took an additional 4 to 5 hours per day.

Doing the math, that’s five full days of processing to parse and compress the data on a beast of a machine. Even more surprisingly, I found this exact quote singled out among all the interesting results in the paper! Let me make clear that I’m not criticizing the study; in fact, both the dataset and the exploratory analysis are interesting in many ways. However, it is somewhat surprising that, at least among the research community, such a statement is still treated more like a badge of honor rather than an admission of masochism.

The authors should be applauded for their effort. Me, I’m an impatient sod. Wait one day for the results, I think I can do that. Two days, what the heck. But five? For an exploratory statistical analysis? I’d be long gone before that. And what if I found a serious bug half way down the road? That’s after more than two days of waiting, in case you weren’t counting. Or what if I decided I needed a minor modification to extract some other statistic? Wait another five days? Call me a Matlab-spoiled brat, but forget what I said just now about waiting one day. I changed my mind already. A few hours, tops. But we need a lot more studies like this. Consequently, we need the tools to facilitate them.

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“Beyond Relational Databases”

The article “Beyond Relational Databases” by Margo Seltzer in the July 2008 issue of CACM claims that “there is more to data access than SQL.”  Although this is a fairly obvious statement, the article is well-written and worth a read.  The main message is simple: bundling data storage, indexing, query execution, transaction control, and logging components into a monolithic system and wrapping them with a veneer of SQL is not the best solution to all data management problems. Consequently, the author makes a call for solutions based on a modular approach, using open components.

However, the article offers no concrete examples at all, so I’ll venture a suggestion. In a growing open source ecosystem of scalable, fault-tolerant, distributed data processing and management components, MapReduce is emerging as a predominant elementary abstraction for distributed execution of a large class of data-intensive processing tasks. It has attracted a lot of attention, proving both a source for inspiration, as well as target of polemic by prominent database researchers.

In database terminology, MapReduce is an execution engine, largely unconcerned about data models and storage schemes.  In the simplest case, data reside on a distributed file system (e.g., GFS, HDFS, or KFS) but nothing prevents pulling data from a large data store like BigTable (or HBase, or Hypertable), or any other storage engine, as long as it

  • Provides data de-clustering and replication across many machines, and
  • Allows computations to execute on local copies of the data.

Arguably, MapReduce is powerful both for the features it provides, as well as for the features it omits, in order to provide a clean and simple programming abstraction, which facilitates improved usability, efficiency and fault-tolerance.

Most of the fundamental ideas for distributed data processing are not new.  For example, a researcher involved in some of the projects mentioned once said, with notable openness and directness, that “people think there is something new in all this; there isn’t, it’s all Gamma“—and he’s probably right.  Reading the original Google papers, none make a claim to fundamental discoveries.  Focusing on “academic novelty” (whatever that may mean) is irrelevant.  Similarly, most of the other criticisms in the irresponsibly written and oft (mis)quoted blog post and its followup miss the point.  The big thing about the technologies mentioned in this post is, in fact, their promise to materialize Margo Seltzer’s vision, on clusters of commodity hardware.

Michael Stonebraker and David DeWitt do have a valid point: we should not fixate on MapReduce; greater things are happening. So, if we are indeed witnessing the emergence of an open ecosystem for scalable, distributed data processing, what might be the other key components?

Data types: In database speak, these are known as “schemas.” Google’s protocol buffers the underlying API for data storage and exchange.  This is also nothing radically new; in essence, it is a binary XML representation,  somewhere between the simple XTalk protocol which underpins Vinci and the WBXML tokenized representation (both slightly predating protocol buffers and both now largely defunct).  In fact, if I had to name a major weakness in the open source versions of Google’s infrastructure (Hadoop, HBase, etc), it would be the lack of such a common data representation format.  Hadoop has Writable, but that is much too low-level (a data-agnostic, minimalistic abstraction for lightweight, mutable, serializable objects), leading to replication of effort in many projects that rely on Hadoop (such as Nutch, Pig, Cascading, and so on).  Interestingly, the rcc record compiler component (which seems to have fallen in disuse) was once called Jute with possibly plans grander than what came to be.  So, I was pleasantly surprised when Google decided to open-source protocol buffers a few days ago—although it may now turn out to be too little too late.

Data access: In the beginning there was BigTable, which has been recently followed by HBase and Hypertable.  It started fairly simple, as a “is a sparse, distributed, persistent multidimensional sorted map” to quote the original paper.  It is now part of the Google App Engine and even has support for general transactions. HBase, at least as of version 0.1 was relatively immature, but there is a flurry of development and we should expect good things pretty soon, given the Hadoop team’s excellent track record so far.  While writing this post, I remembered an HBase wish list item which, although lower priority, I had found interesting: support for scripting languages, instead of HQL. Turns out this has already been done (JIRA entry and wiki entries).  I am a fan of modern scripting languages and generally skeptical about new special-purpose languages (which is not to say that they don’t have their place).

Job and schema management: Pig, from the database community, is described as a parallel dataflow engine and employs yet another special-purpose language which tries to look a little like SQL (but it is no secret that it isn’t). Cascading has received no attention in the research community, but it merits a closer look. It is based on a “build system” metaphor, aiminig to be the equivalent of Make or Ant for distributed processing of huge datasets.  Instead of introducing a new language, it provides a clean Java API and also integrates with scripting languages that support functional programming (at the moment, Groovy).  As I have used neither Cascading nor Pig at the moment, I will reserve any further comparisons.  It is worth noting that both projects build upon Hadoop core and do not integrate, at the moment, with other components, such as HBase. Finally, Sawzall deserves an honorable mention, but I won’t discuss it further as it is a closed technology.

Indexing: Beyond lookups based on row keys in BigTable, general support for indexing is a relatively open topic.  I suspect that IR-style indices, such as Lucene, have much to offer (something that has not gone unnoticed)—more on this in another post.

A number of other projects are also worth keeping an eye on, such as CouchDB, Amazon’s S3, Facebook’s Hive, and JAQL (and I’m sure I’m missing many more).  All of them are, of course, open source.

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