ACCELER8OR

Aug 07 2011

All Hail Mighty Caesar! Rise of the Planet of the Upgraded Apes

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Rise One

Warning: Major Spoilers. If you haven’t seen the film and plan to… you may want to read only beneath the embedded video.

Grossing $54 million (and counting) during its debut weekend, Rise of the Planet of the Apes is well on its way to becoming a summer blockbuster.

Rise Two

But the star of the film is not James Franco, in spite of top billing.  It is actually the genetically modified, cognitively enhanced chimpanzee, Caesar — marvelously acted by Andy Serkis (you may remember him as the CGI-character Gollum in Peter Jackson’s Lord of the Rings trilogy).  The emotional range and realism of Serkis’ Caesar shows how much CGI has matured. And Serkis is likely to receive an Oscar nod for his performance.

Anyone not familiar with the well-known Planet of the Apes franchise (and Charleton Heston’s famous line “Get your paws off me, you damn, dirty ape.” from 1968’s Planet of the Apes) likely does not own a TV set or have Internet access. The line, it turns out, is used again the 2011 reboot: rather than Heston’s human character getting hosed down in the chimp-run laboratory (read prison) of the original film, it is Caesar who gets hosed by a redneck keeper in a modern-day research facility looking more like an Abu Ghraib for chimps.

Of course, it’s hard to beat the 1968 original (the closing Statue of Liberty scene is a cultural icon, and the film was selected for preservation in the United States National Film Registry by the Library of Congress in 2001 as being “culturally, historically, or aesthetically significant”). Some critics have already said “why try?”

But Rise of the Planet of the Apes is much more than just the reboot of a famous franchise, digitally updated for the Avatar generation.  It highlights the plight of chimpanzees in the wild, the human-like abilities of the great apes, the realistic possibility of an Alzheimer’s cure, and the equally realistic possibly of human pandemics resulting from genetic experimentation.

The film opens with a scene of a troop of chimps in the wild, reminiscent of the many National Geographic specials on Dr. Jane Goodall’s famous Gombe Stream Chimpanzee Reserve in Tanzania. We are reminded of wild chimpanzee origins and their sophisticated social abilities.  The tranquility of the marching troop is quickly shattered, as economic reality comes into play and the chimps are brutally captured by African locals for sale as research subjects.

Rise ThreeTransition to the offices of the pharmaceutical company, GynSys, where James Franco plays a San Francisco researcher searching for a cure for Alzheimer’s, which afflicts his dad (John Lithgow). Will is testing his drug delivery vehicle, a virus, on chimps.  Will ends up adopting a baby chimp whose cognitively-enhanced mother was exposed to the Alzheimer’s drug. Will’s dad names him “Caesar,” and the little chimp quickly shows human-level intelligence as he masters his environment and solves difficult puzzles (this is the fun part of the movie).

When Caesar nearly kills a neighbor, he is sent to the local animal shelter, where the chief (Brian Cox) tells Will that the chimp will be kept in an open-area play structure and gradually reintroduced to the other chimps at the facility. Instead, Caesar is shoved in a fetid cage and mercilessly teased by his jailer (Tom Felton).  With one its many nods to the original franchise, we are fleetingly introduced to a young Cornelius, the chimp archaeologist (played by Roddy McDowall in the original 1968 movie).

There are some fun twists and turns during the final escape sequence over San Francisco’s Golden Gate bridge, which is executed by chimp leader Caesar with strategy and tactical deployment almost worthy of namesake Julius Caesar marching on Rome. Credit goes to Rupert Wyatt, director of the 2008 prison thriller The Escapist, for non-stop action and some lip-biting sequences.

In 2009, director Rupert Wyatt was quoted as saying, “We’ve incorporated elements from Conquest of the Planet of the Apes [1972, from the original franchise], in terms of how the apes begin to revolt, but this is primarily a prequel to the 1968 film… Caesar is a revolutionary figure who will be talked about by his fellow apes for centuries… This is just the first step in the evolution of the apes, and there’s a lot more stories to tell after this. I imagine the next film will be about the all-out war between the apes and humans.”

But beyond the drama, some serious transhumanist themes emerge: among them, chimp research (and animal rights in general), the use of pharmaceutical cognitive enhancers, evolution, and the possibility of a cure for Alzheimer’s.

Chimps, along with their (and our) cousins — the gorillas, bonobos, and orangutans — are endangered species.  According to the Save the Chimps website, chimps continue to be used for biomedical research today.  The use of chimps in such research has began to see a decline, although their use as models for hepatitis C research continued to interest scientists. Over the past decade there has been a modest decline in the estimated number of chimps living in research laboratories, from 1500 to 1100, largely attributed to the transfer of chimps from labs to sanctuaries.

Bruce Katz, Chief AI Scientist at ColdLight Solutions, suggests that cognitive enhancement is a kind of evolution, but not in a traditional sense, “because with cognitive enhancement we will be taking the first significant steps towards being a self-modifying system.” He points out that ordinary evolution develops at a glacial pace, and it is not at all clear that evolution can take us much beyond where we already are “in the smarts department.” Could/should chimps possibly evolve in this manner?

Slate Magazine points out that cognitive enhancers are already used off-label by people looking for a little cognitive lift: stimulants for ADD/ADHD treatment, like Ritalin and Adderall, and the anti-narcoleptic drug Provigil (modafinil). And some Alzheimer’s treatments, like Aricept (donepezil), may also help boost memory in people without dementia: “It’s not clear that they’re really cognitive enhancers for healthy people,”  said Hank Greely, a Stanford professor who studies law and the biosciences. “The evidence is mixed. And if they do help  they don’t seem to help very much. It’s not like [the movie] Limitless; they’re not turning into Superman.” A wonder drug like ALZ-112 in the Rise of the Planet of the Apes simply does not exist yet.

Putting aside the heady issues of cognitive neuroenhancers, evolution, Alzheimer’s cures, and chimp research, it is ultimately Andy Serkis’ Caesar, a product of special effects and motion-capture, that carries the film.  You’re never quite sure exactly where the human ends (and perhaps the character is a little too eerily human) and the effects begin, but Serkis aka Caesar gives the best performance in a movie with lots of fun sequences and some real science at its core.

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Jul 17 2011

MondoNet Fights The Internet Power: an Interview with Aram Sinnreich

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If you’ve been paying attention to the news lately, I’m sure you’ve heard about the “Declaration of War” by Lulzsec and Anonymous. Regardless of what you think about their actions, it should be obvious that there has been a growing effort by large corporations and governments to recreate the internet in an image completely alien to its original intentions – that of a robust decentralized network which no amount of damage could bring down. DARPA’s original designs have been sidetracked by various groups trying desperately to eliminate a “free and open” network model in favor of centrally controlled, corporate owned, authoritarian “walled gardens” in which your every move is tracked, your every file is subject to the central authorities approval, and your every action with your own possessions is monitored to ensure you’re not doing something a company disapproves of. The corporations have no desire to allow the masses a future in which information is not monitored, metered, charged for, and always in the control of the corporations.

In order to do this, they need the networks to be centralized, run entirely through systems in which every bit of data transmitted back and forth from the end user to the internet is subject to their scrutiny and approval. Due to the manner in which the net has developed using existing infrastructure, there are many bottlenecks which have made this effort possible, from cell phone towers that ensure that smartphones are routed through bandwidth limiting servers that meter per second access and looks for ways to charge customers for “overuse” to broadband services who inspect every packet of information to prevent you from downloading movies and songs. Even the FBI wants the ability to search your computer remotely.

So while I am uncertain of the utility of “cyberterrorism,” I can certainly see the need for methods to prevent the “digital frontier” from becoming a “virtual prison” and to encourage a return to that robust decentralized vision created by DARPA.

That’s pretty much what these guys at MondoNet are about and I think their words say it pretty clearly:

“Although the Internet is highly decentralized in its communication and social patterns, its technical and regulatory foundations are extremely hierarchical, due to centralized control by organizations like ICANN and the oligopolistic ownership of the access business by a handful of broadband ISPs and wireless carriers (Wu, 2010). As a result of this centralization, digital communications are compromised by a degree of surveillance and censorship that would be unthinkable in traditional social arenas, threatening our cyberliberties and “e-speech” rights (Sinnreich & Zager, 2008).

“Seemingly disparate issues like network neutrality, intellectual property treaties and national security measures, taken in combination, threaten to produce a communications environment in which innovation is stifled and normative cultural behaviors are criminalized and punished by censorship, fines and/or imprisonment. One potential solution to this problem would be to create a new communications platform based on existing Internet protocols, but with a decentralized infrastructure free of the bottlenecks and chokepoints that plague the current system. Specifically, this new infrastructure would use mesh networking technologies to produce a stable, ad hoc global wireless network in which each peer is a router, server and client combined, and in which no single state or organization can effectively censor or surveil the population on a massive scale.”

If you’ve never heard of a mesh network, or don’t understand the technical jargon, it basically means that every “device” — be it a smartphone, computer, or other internet connected device — “talks” to every other device, instead of to a “tower” or to a “server.” In other words, instead of talking to an “ISP” or “Carrier” who stands between you and the internet, your device will simply be part of the internet.

In the current infrastructure, if you want to call your friend, your device can’t just call up your friend. First it has to call up to a centralized, corporate controlled network. Then it has to confirm that it is allowed on that network and receive approval to use that network. Then it has to ask permission to create a connection to your friend, and verify that your friend is allowed access to the network, has not been banned from the network, and is connected to the network instead of a different network. Then, it will finally be allowed to create a connection, subject to monitoring from the central network. In a mesh network, your device would simply go to the next nearest device and then on to the next, and so on until it made a connection to your friend, over hundreds of different paths that it would turn into a “virtual private network” in which everything you and your friend say is inaccessible to anyone but the two of you because your data would be being sent along too many different paths to intercept.

Mondo.net again does a fantastic job of summarizing the principles of such a network:
1. Decentralized
The network should not be operated, maintained, or in any way reliant upon a single or minimally differentiated set of entities or technologies. No individual, entity or group should be central to the network to the extent that their absence would measurably impact its functionality or scope. Network participation should not require access to fixed, physical infrastructure of any sort.
2. Universally Accessible
The requisite technology and expertise required to participate in the network should be available at minimal cost and effort to every human being on the planet. Furthermore, all users should be able to extend the network’s content and functionality to suit their own needs, or those of others. No aspect of the network’s functioning should be reliant upon proprietary technologies, information or capital.
3. Censor-proof
The network should be resistant to both regulatory and technical attempts to limit the nature of the information shared, restrict usage by given individuals or communities, or render the network, or any portion of it, inoperable or inaccessible.
4. Surveillance-proof
The network should enable users to choose exactly what information they share with whom, and to participate anonymously if they so desire. Users should only have access to information if they are the designated recipients, or if it has been published openly.
5. Secure
The network should be organized in a way that minimizes the risk of malicious attacks or engineering failure. Information exchanged on the network should meet or exceed the delivery rate and reliability of information exchanged via the Internet.
6. Scalable
The network should be organized with the expectation that its scale could reach or even exceed that of today’s Internet. Special care should be taken to address to the challenge of maintaining efficiency without the presence of a centralized backbone.
7. Permanent
The network’s density and redundancy should be great enough that, despite its ad hoc nature, it will persistently operate on a broad scale, and be available in full to any user within range of another peer.
8. Fast (enough)
The network should always achieve whatever speed is required for a “bottom line” level of social and cultural participation. At present, we assert that the network’s data transfer rate should, at a minimum, be enough for voice-over-IP (VoIP) communications, and low-bitrate streaming video.
9. Independent
While the network will have the capacity to exchange information with Internet users and nodes, it should be able to operate independently, as well. A large-scale failure or closure of Internet infrastructure and content should have minimal effect on the network’s operations.
10. Evolvable
The network should be built with future development in mind. The platform should be flexible enough to support technologies, protocols and modes of usage that have not yet been developed.

The question then is this: Why should you care?

And I’ll be honest here. I see mesh networks naturally evolving to become the dominant form of network over the next few decades, because it’s the most practical solution to a number of problems that will have to be solved in order to build the VR web as well as to connect the entire world to the internet. Centralized networks are only possible in highly developed countries with existing infrastructures like power and telephone grids, as well as roads. You can’t build a tower where you don’t have either power or access. For vast areas of the world, mesh networks will be the only feasible solution. As handheld devices get cheaper, smaller and use less power, and batteries become able to store weeks or month’s worth of power for them, they will become the world’s primary means to access the internet. As billions of devices begin attaching to the net, they will overwhelm any centralized system. At that point, it will be much simpler to use them in a mesh than it will be to try and build sufficient infrastructure to meet demand. A mesh network can grow as fast as you add a new device to it. And unlike traditional networks, it auto-updates itself as users discontinue using older devices and switch to new ones. It also will eliminate bandwidth issues as thousands of paths will allow data streaming at the limits of the devices own hardware. As we move past the multimedia age and into the VR age, the need for vast amounts of data to be transferred will force the abandonment of centralized systems that simply cannot handle the load for robust multispectrum wireless networks that are more akin to P2P torrents than today’s cellular networks. Technology advancement itself is going to ensure we will move to mesh architectures in the very near future. So why, really, should you care?

Because the sooner we begin working towards developing these peaceful, innovative, and practical solutions to the threats of authoritarian control of the worlds developing nervous system, the less need we will have for “Cyberterrorists” like Lulzsec and Anonymous to cause disruptive attacks that hurt the innocent and the guilty alike in a fight to preserve our freedom to access information. And that is a goal I think every side can agree on

Valkyrie Ice

RU SIRIUS:  John GIlmore famously said, “The Internet interprets censorship as damage and routes around it? True or not? And what’s missing from the Internet as it is, structurally, that requires an alternative creation for mass p2p activity?

ARAM SINNREICH: Gilmore was really talking about TCP/IP, and node-level routing. While it’s true that these protocols are inherently decentralized and therefore very resistant to censorship, the problem comes at the infrastructural level, which is far more centralized. The Internet may have a billion nodes now, but only a handful of companies control the Internet’s “backbone,” the broadband ISP market, and the wireless data services market (and two companies, AT&T and Verizon, are the dominant players in each of these sectors in the US). That means that no two Internet users in the US can communicate with one another without their data passing through the hands of one of these companies.

Unless the data is encrypted (in which case, it can be dumped if the companies choose), it is vulnerable to packet-sniffing or other forms of inspection. This is not a hypothetical situation; these companies have long histories of inspecting packets for the purposes of (a) commercially preferred treatment, e.g. non-neutral network operations; (b) commercial exploitation, e.g. consumer profiling; and (c) political censorship and surveillance, either at the behest of the federal government (think NSA wiretaps) or for reasons of corporate ideology (e.g. AT&T censoring an Eddie Vedder webcast critical of President Bush; Verizon blocking text messages between pro-choice groups and their members).

Thus, only a network that replicates the decentralization of nodes at an infrastructural level — or, to put it another way, one in which the nodes themselves are the backbones — can eschew the Internet’s vulnerability to censorship.

RU: There seems to be a lot of activity going on in a similar direction to MondoNet. Are you aware of other efforts and how does your plan differ?

AS: MondoNet was a germ of an idea in my mind from about 2004, when I first read Tim Wu’s work on Net Neutrality, and the idea of mesh networking as a democratizing force was something I discussed with my USC doctoral professor Francois Bar at the time. In fact, a video about mesh networking that Bar produced with my contributions in 2005-6 is available here (see the automata video). So this has been percolating for a while. However, it wasn’t until I started my tenure-track position at Rutgers in 2010 that I had the support to begin doing something with the idea. I taught a doctoral course in the fall called “Visions and Revisions of Cyberspace,” and two of my students in that class, Nathan Graham and Aaron Trammell, shared my enthusiasm for addressing the social and political dimension of network technologies. So at the end of the fall semester, we applied for a small grant to start MondoNet, and have been working on it ever since.

It’s been a gratifying surprise to see how much the concept of mesh networking has taken hold across disciplines and even in the mainstream press in the seven or eight months since we started our work. In January, 2011, OpenMesh launched their initiative, and we started sharing our work on MondoNet.org. In February, Hillary Clinton gave her “Internet freedom” speech, and a few days later, the Freedom Box initiative announced itself in the pages of the New York Times. In April, I announced MondoNet at my TEDxUSC talk.

Now, it seems every day we read a new article or hear about a new initiative along these lines. And what’s really cool is that all of these networking initiatives have started to network as well. We’ve gotten code-sharing offers from other projects, been invited to Google Groups uniting researchers in this field, and are even planning our own Rutgers mini-conference on the subject later this year.

Where I think we differ, and can offer some vital perspective, is in our theoretical orientation. Unlike most of the other initiatives out there, we’re not engineers or policy wonks. We’re critical information scholars, bringing perspectives from social science, political economy and even cultural studies into the mix. This is why my TEDx talk and our soon-to-be-published article in The Information Society begin with what we call “social specifications,” emphasizing the qualities that free society requires from a network, rather than the capacities that given technologies can offer us. Before we even start thinking about protocols and feature sets, we want to be perfectly clear about what we’re trying to accomplish. So today, wireless ad hoc networks might be the best solution to address these social specifications, but ten years from now, there may be other options. Either way, we’re wedded to the principles, not to the tech.

Of course, we’re just as interested in making free and open networked communications a reality as anyone else out there. Our immediate plan is to test a “virtual” version of MondoNet in three different types of community, and to operationalize our social specifications through a variety of different data measurements. Once we are confident that MondoNet will actually move the needle on these target goals (e.g. accessibility or resistance to censorship), we’ll start building actual MondoNet software to spec. And the more we can make use of other projects’ openly-licensed code in the process, the happier we’ll be.

RU: I wonder if this thing scales, or if you want it to.  For example, for all the horrors of Facebook, the charm is in the fact that there are like a billion people there.  I can go find my old high school buddy or my great aunt. And while smaller decentralized alternative networks might be an advantage to, say, revolutionaries in Egypt or wherever, in that the government would find it harder to shut it down, there’s the chance that it won’t reach a lot of the people.

AS:  We definitely want it to scale — not just in terms of growth, but in terms of applicability within social milieus of any size. As you point out, it needs to work for small groups of dissenters within oppressive environments, but it also needs to provide a large-scale platform for an uncorruptible public sphere. In my ideal future, the entire globe will be covered with a stable, decentralized, peer-to-peer communications mesh, which can be used as a platform for public, closed-group, and person-to-person information exchanges.

As to Facebook’s “charm,” you’re certainly right that size matters when it comes to networks. I’m sure you’re familiar with Metcalfe’s law, which states that the value or power of a communications platform grows exponentially as the number of peers grows incrementally. And with MondoNet, this applies to an even greater extent, because users will rely on one another not only as senders and recipients of information, but as components of the network itself. All that being said, we’re not trying to replace or rival Facebook. In fact, we’d be delighted if Facebook chose to mirror its servers on MondoNet peers one day. We’re aiming to be pure infrastructure, simply a reliably secure and open alternative to the increasingly draconian and expensive broadband and wireless commercial networks.

RU:  I’m amazed that Rutgers is supporting this (so far.)  Certainly the government takes very seriously their abilities to surveil communications (going all the way back to the fight over the Clipper Chip in the mid-90s).  Do you expect a visit from some friendly folks at Homeland Security if this becomes viable?

AS: Yes, I’m sure that once we move from the talking phase to the doing phase, someone with national security concerns will come a-knocking. They’ll probably ask us to build in a “back door” to allow wiretaps and other forms of surveillance, just like they have for all the other network service operators. But the beauty of the technology we’re building is, such a back door would be impossible from an engineering standpoint. There’s no central backbone or other point of presence through which the majority of bits will flow. Furthermore, the platform will enable native peer-to-peer encryption (like PGP), which means that each individual node will have the ability to determine the visibility or obscurity of the information it sends. And, because the code is all open-source, even if we did create some kind of workaround back door, other developers could simply engineer it back out, and release an improved, higher-security version.

I’m not surprised that Rutgers is being supportive, though I am gratified — after all, free speech, social equality and technological innovation are key aims of our school, so we’re pretty much in line with the mission statement. However, it is a state university, so I suppose if federal regulators got a bee in their bonnet about the project, they could probably exert some political force to get the university to kibosh us. Hopefully, by the time that happens, we’ll have enough research, code, and project inertia to continue independently.

RU:  What sort of time frame do you think you’re looking at before this starts testing and how long after that do you think it might become viable for lots of people?

AS: As social scientists, we ask questions first and act second. So our first order of business will be to test the premises of MondoNet by creating a “virtual” version for field research. Will a peer-to-peer mobile mesh network actually address the social and political flaws of the existing Internet? Will it increase accessibility? Decentralize communications? Prove resistant to censorship and surveillance? We’re currently in talks with a mobile software developer to create this virtual MondoNet, and hopefully we will test it over the next year.

Once we determine whether our strategy actually does what we hope it does, then we can begin to develop the software itself. The good news is, many of the components (e.g. mesh networking protocols) are already developed or in development under open license elsewhere, so we don’t need to reinvent the wheel. We see our role more as integrating these back-end technologies, creating an easy-to-use and widely accessible user interface, and then shepherding the project development within the open source/free software community. Given that we will probably need to rely on grant money to do this, a realistic timeframe would be about 3 years till public release.

Coming from the business world, I realize that this might seem like a long development cycle, but we want to get it right the first time, and build a strong foundation for future development by ourselves and other coders and communities. If we do it right, the project should take on a life of its own, and the code will be adapted for uses and sociopolitical contexts we can’t predict at this point.

RU: Broadly speaking, there has been a lot of controversy over the years about the liberatory or revolutionary potential of the internet, ranging from technotopian imaginings to scathing indictments.  What’s your view?

AS: Great question. I actually teach a doctoral course on this topic (Nathan and Aaron — both project participants — took it last year). The short answer is, all technologies are inherently neutral. They can be used toward both emancipatory and totalitarian ends, and usually both apply. Through laws, regulations, architecture and social norms, different interests work to redefine the role of technology to achieve the social outcomes they seek. Right now, many regulatory and architectural developments are pushing the platform towards informatic totalitarianism, though emerging social norms continue to explore its emancipatory potential. We see MondoNet as an architectural intervention, reversing the “cable-ization” of the network and undermining the power of regulators to centralize control over information flow.

As a final word, I would also like to mention that this process of social reorganization through evolving communication technologies will never end. It will never reach a happy medium, a comfortable resting place, or a peaceable stasis. As the pace of technological innovation continues to accelerate relative to more organic human processes, communications networks will continue to play an increasingly central role in our politics, and the stakes will grow ever greater. Even if MondoNet is wildly successful, and we achieve our dream of a decentralized, universally distributed global mesh in 20 years, we can’t expect the story to end there.

Nanotechnology, quantum computing, and genetic science are just a few of the emerging fields that have far-reaching political and communication implications, and thus far these implications have been primarily addressed within the discourse of science fiction rather than research and advocacy. That’s why each of us needs to be aware of the power dynamics surrounding technological innovation, and to continually ask ourselves how we can intervene to help shape a future we’d want to live in.

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