31 Aralık 2012 Pazartesi

Tips for getting the most from Google Maps on iPhone

To contact us Click HERE
We hope you’ve had a chance to try the new Google Maps app for iPhone (announced last week and available for download in the Apple App Store). The app is designed to be simple—just to work whenever you need it. Still, we have a few tips to make finding things with Google Maps even faster and easier. All the tips are collected on our site but here a few of my favorites:
  • Swipe to see more. In Google Maps a wealth of information is often just a swipe away. Whether you’re looking at search results or directions, you can swipe the bottom info sheet left and right to see other options. To get more details on any of the results, swipe that info sheet upward (or just tap it—that works too). Even with the info sheet expanded, you can swipe to see those other results.
  • Place a pin. Get more information about any location by just pressing and holding the map. The info sheet that pops up tells you the address, lets you save or share the place, and best of all, brings up...
  • Street View. By far the easiest way to get to Street View is placing a pin. Tap the imagery preview on the info sheet to enter into Street View, then explore! I recommend the look-around feature (bottom left button) which changes what you’re looking at as you tilt and move your phone.
Want to learn more? See the rest of our tips on the site. And as you explore the app on your own, share your own tips using #googlemaps. Most of all, enjoy discovering your world.


Follow Santa live on Google Santa Tracker

To contact us Click HERE
The North Pole air traffic control elves have just notified us that Santa has taken off! For the next day, you can visit the Google Santa Tracker to see where Santa’s headed next and keep tabs on how many presents he’s delivered. You can also keep up with him on your smartphone and tablet with the Android app, in your browser with the the Chrome extension, and even in 3D with Google Earth and Google Earth mobile (look for it in the Tour Guide feature with the latest version of Google Earth).



And follow Google Maps on Google+, Facebook and Twitter to get up-to-the-minute details on Santa’s journey around the world.

Ho ho ho! Happy holidays everyone!

Millions of Core-Hours Awarded to Science

To contact us Click HERE


In 2011 Google University Relations launched a new academic research awards program, Google Exacycle for Visiting Faculty, offering up to one billion core-hours to qualifying proposals. We were looking for projects that would consume 100M+ core-hours each and be of critical benefit to society. Not surprisingly, there was no shortage of applications.

Since then, the following seven scientists have been working on-site at Google offices in Mountain View and Seattle. They are here to run large computing experiments on Google’s infrastructure to change the future. Their projects include exploring antibiotic drug resistance, protein folding and structural modelling, drug discovery, and last but not least, the dynamic universe.

Today, we would like to introduce the Exacycle award recipients and their work. Please stay tuned for updates next year.

Simulating a Dynamic Universe with the Large Synoptic Sky Survey
Jeff Gardner, University of Washington, Seattle, WA
Collaborators: Andrew Connolly, University of Washington, Seattle, WA, and John Peterson, Purdue University, West Lafayette, IN

Research subject: The Large Synoptic Survey Telescope (LSST) is one of the most ambitious astrophysical research programs ever undertaken. Starting in 2019, the LSST’s 3.2 Gigapixel camera will repeatedly survey the southern sky, generating tens of petabytes of data every year. The images and catalogs from the LSST have the potential to transform both our understanding of the universe and the way that we engage in science in general.
Exacycle impact: In order to design the telescope to yield the best possible science, the LSST collaboration has undertaken a formidable computational campaign to simulate the telescope itself. This will optimize how the LSST surveys the sky and provide realistic datasets for the development of analysis pipelines that can operate on hundreds of petabytes. Using Exacycle, we are reducing the time required to simulate one night of LSST observing, roughly 5 million images, from 3 months down to a few days. This rapid turnaround will enable the LSST engineering teams to test new designs and new algorithms with unprecedented precision, which will ultimately lead to bigger and better science from the LSST.

Designing and Defeating Antibiotic Drug Resistance
Peter Kasson, Assistant Professor, Departments of Molecular Physiology and Biological Physics and of Biomedical Engineering, University of Virginia

Research subject: Antibiotics have made most bacterial infections routinely treatable. As antibiotic use has become common, bacterial resistance to these drugs has also increased. Recently, some bacteria have arisen that are resistant to almost all antibiotics. We are studying the basis for this resistance, in particular the enzyme that acts to break down many antibiotics. Identifying the critical changes required for pan-resistance will aid surveillance and prevention; it will also help elucidate targets for the development of new therapeutic agents.
Exacycle impact: Exacycle allows us to simulate the structure and dynamics of several thousand enzyme variants in great detail. The structural differences between enzymes from resistant and non-resistant bacteria are subtle, so we have developed methods to compare structural "fingerprints" of the enzymes and identify distinguishing characteristics. The complexity of this calculation and large number of potential bacterial sequences mean that this is a computationally intensive task; the massive computing power offered by Exacycle in combination with some novel sampling strategies make this calculation tractable.


Sampling the conformational space of G protein-coupled receptors
Kai Kohlhoff, Research Scientist at Google
Collaborators: Research labs of Vijay Pande and Russ Altman at Stanford University

Research subject: G protein-coupled receptors (GPCRs) are proteins that act as signal transducers in the cell membrane and influence the response of a cell to a variety of external stimuli. GPCRs play a role in many human diseases, such as asthma and hypertension, and are well established as a primary drug target.
Exacycle impact: Exacycle let us perform many tens of thousands of molecular simulations of membrane-bound GPCRs in parallel using the Gromacs software. With MapReduce, Dremel, and other technologies, we analyzed the 100s of Terabytes of generated data and built Markov State Models. The information contained in these models can help scientists design drugs that have higher potency and specificity than those presently available.
Results: Our models let us explore kinetically meaningful receptor states and transition rates, which improved our understanding of the structural changes that take place during activation of a signaling receptor. In addition, we used Exacycle to study the affinity of drug molecules when binding to different receptor states.


Modeling transport through the nuclear pore complex
Daniel Russel, post doc in structural biology, University of California, San Francisco

Research subject: Our goal is to develop a predictive model of transport through the nuclear pore complex (NPC). Developing the model requires understanding how the behavior of the NPC varies as we change the parameters governing the components of the system. Such a model will allow us to understand how transportins, the unstructured domains and the rest of the cellular milieu, interact to determine efficiency and specificity of macromolecular transport into and out of the nucleus.
Exacycle impact: Since data describing the microscopic behavior of most parts of the nuclear transport process is incomplete and contradictory, we have to explore a larger parameter space than would be feasible with traditional computational resources.
Status: We are currently modeling various experimental measurements of aspects of the nuclear transport process. These experiments range from simple ones containing only a few components of the transport process to measurements on the whole nuclear pore with transportins and cellular milieu.


Large scale screening for new drug leads that modulate the activity of disease-relevant proteins
James Swetnam, Scientific Software Engineer, drugable.org, NYU School of Medicine
Collaborators: Tim Cardozo, MD, PhD - NYU School of Medicine.

Research subject: We are using a high throughput, CPU-bound procedure known as virtual ligand screening to ‘dock’, or produce rough estimates of binding energy, for a large sample of bioactive chemical space to the entirety of known protein structures. Our goal is the first computational picture of how bioactive chemistry with therapeutic potential can affect human and pathogen biology.
Exacycle Impact: Typically, using our academic lab’s resources, we could screen a few tens of thousands of compounds against a single protein to try to find modulators of its function. To date, Exacycle has enabled us to screen 545,130 compounds against 8,535 protein structures that are involved in important and underserved diseases as cancer, diabetes, malaria, and HIV to look for new leads towards future drugs.
Status: We are currently expanding our screens to an additional 206,190 models from
ModBase. We aim to have a public dataset for the research community in the first half of 2013.

Protein Structure Prediction and Design
Michael Tyka, Research Fellow, University of Washington, Seattle, WA

Research subject: The precise relationship between the primary sequence and the three dimensional structure of proteins is one of the unsolved grand challenges of computational biochemistry. The Baker Lab has made significant progress in recent years by developing more powerful protein prediction and design algorithms using the Rosetta Protein Modelling suite.
Exacycle impact: Limitations in the accuracy of the physical model and lack of sufficient computational power have prevented solutions to broader classes of medically relevant problems. Exacycle allows us to improve model quality by conducting large parameter optimization sweeps with a very large dataset of experimental protein structural data. The improved energy functions will benefit the entire theoretical protein research community.

We are also using Exacycle to conduct simultaneous docking and one-sided protein design to develop novel protein binders for a number of medically relevant targets. For the first time, we are able to aggressively redesign backbone conformations at the binding site. This allows for a much greater flexibility in possible binding shapes but also hugely increases the space of possibilities that have to be sampled. Very promising designs have already been found using this method.

Using online courses in Spain to teach entrepreneurship

To contact us Click HERE



At the end of the third quarter in 2012, roughly 25% of adults in Spain were out of work. More than half of adults under 24 years old are unemployed. Recent graduates and young adults preparing to enter the workforce face the toughest job market in decades.

The Internet presents an opportunity for growth and economic development. According to recent research, more than 100,000 jobs in Spain originate from the Internet and it directly contributes to the GDP with 26.7 billion euros (2.5%). That impact that could triple by 2015 under the right conditions.

One of those conditions is making high-quality education accessible, echoed by a recent OECD report on the youth labor market in Spain. This is no easy task. University degrees are in high demand, straining the reach of our existing institutions.

The web has become a way for learners to develop new skills when traditional institutions aren’t an option. Recent courses on platforms like Udacity, Coursera and edX have seen hundreds of thousands of students enroll and participate in courses taught by prestigious professors and lecturers.

Google is partnering with numerous organizations and universities in Spain to organize UniMOOC, an online course intended to educate citizens in Spain and the rest of the Spanish-speaking world about entrepreneurship. It was built with Course Builder, Google’s new open source toolkit for constructing online courses.

To date nearly 10,000 students have registered for the course, over two-thirds of them from Spain and one-third from 93 countries. It recently won an award for the “Most innovative project” in 2012 from the newspaper El Mundo.

Spain’s situation is not entirely unique in Europe. Policymakers across the continent are asking themselves how best to create economic opportunity for their citizens, and how to ensure that their best and brightest students are on a path toward financial success. Our hope is that the people taking this course will be more empowered with the right skills and tools to start their own businesses that can create jobs. They will push not only Spain, but Europe and the rest of the world towards economic recovery and growth.

The course is still running, and you’re able to join today.

Conference Report: Workshop on Internet and Network Economics (WINE) 2012

To contact us Click HERE


Google regularly participates in the WINE conference: Workshop on Internet & Network Economics. WINE’12 just happened last week in Liverpool, UK, where there is a strong economics and computation group. WINE provides a forum for researchers across various disciplines to examine interesting algorithmic and economic problems of mutual interest that have emerged from the Internet over the past decade. For Google, the exchange of ideas at this selective workshop has resulted in innovation and improvements in algorithms and economic auctions, such as our display ad allocation.

Googlers co-authored three papers this year; here’s a synopsis of each, as well as some highlights from invited talks at the conference:

Budget Optimization for Online Campaigns with Positive Carryover Effects
This paper first argues that ad impressions may have some long-term impact on user behaviour, and refers to an older WWW ’10 paper. Based on this motivation, the paper presents a scalable budget optimization algorithm for online advertising campaigns in the presence of Markov user behavior. In such settings, showing an ad to a user may change their actions in the future through a Markov model, and the probability of conversion for the ad does not only depend on the last ad shown, but also on earlier user activities. The main purpose of the paper is to give a simpler algorithm to solve a constrained Markov Decision Process, and confirms this easier solution via simulations on some advertising data sets. The paper was written when Nikolay Archak, a PhD student at NYU business school, was an intern with the New York market algorithms research team.

On Fixed-Price Marketing for Goods with Positive Network Externalities
This paper presents an approximation algorithm for marketing “networked goods” and services that exhibit positive network externalities - for example, is the buyer's value for the goods or service influenced positively by other buyers owning the goods or using the service? Such positive network externalities arise in many products like operating systems or smartphone services. While most of previous research is concerned with influence maximization, this paper attempts to identify a revenue maximizing marketing strategy for such networked goods, as follows: The seller selects a set (S) of buyers and gives them the goods for free, then sets a fixed per-unit price (p), at which other consumers can buy the item. The strategy is consistent with practice and is easy to implement. The authors use ideas from non-negative submodular maximization to find the optimal revenue maximizing fixed-price marketing strategy.

The AND-OR game: Equilibrium Characterization
Yishay Mansour, former Visiting Faculty in Google New York, presented the results; he first argued that the existence and uniqueness of market equilibria is only known for markets with divisible goods and concave or convex utilities. Then he described a simple market AND-OR game for divisible goods. To my surprise, he showed a class of mixed strategies are basically the unique set of randomized equilibria for this market (up to minor changes in the outcome). At the end, Yishay challenged the audience to give such characterization for more general markets with indivisible goods.

Kamal Jain of Ebay Research gave an interesting talk about mechanism design problems, inspired by application in companies like Ebay and Google. In one part, Kamal proposed "coopetitive ad auctions" for settings in which the auctioneer runs an auction among buyers who may cooperate with some advertisers, and at the same time compete with others for sealing advertising slots. He gave context around "product ads"; for example, a retailer like Best Buy may cooperate with a manufacturer like HP to put out a product ad for an HP computer sold at Best Buy. Kamal argued that if the cooperation is not an explicit part of the auction, an advertiser may implicitly end up competing with itself, thus decreasing the social welfare. By making the cooperation an explicit part of the auction, he was able to design a mechanism with better social welfare and revenue properties, compared to both first-price and second-price auctions. Kamal also discussed optimal mechanisms for intermediaries, and “surplus auctions” to avoid cyclic bidding behavior resulted from running naive variants of first-price auctions in repeated settings.

David Parkes of Harvard University discussed techniques to combine mechanism design with machine learning or heuristic search algorithms. At one point David discussed how to implement a branch-and-bound search algorithm in a way that results in a "monotone" allocation rule, so that if we implement a VCG-type allocation and pricing rule based on this allocation algorithm, the resulting mechanism becomes truthful. David also presented ways to compute a set of prices for any allocation, respecting incentive compatibility constraints as much as possible. Both of these topics appeared in ACM EC 2012 papers that he had co-authored.

At the business meeting, there was a proposal to change the title of the conference from “workshop” to “conference” or “symposium” to reflect its fully peer-reviewed and archival nature, keeping the same acronym of WINE. (Changing the title to “Symposium on the Web, Internet, and Network Economics” was rejected: SWINE!) WINE 2013 will be held at Harvard University in Boston, MA, and we look forward to reconnecting with fellow researchers in the field and continuing to nurture new developments and research topics.

27 Aralık 2012 Perşembe

A New Way to Publish your Shared Folders on the Web

To contact us Click HERE

File hosting services like Dropbox and Google Drive have made it easy for anyone to distribute files through Shared Folders. You can upload a file to your shared folder and that file is instantly available to all other people with whom you have shared that folder. In the case of Google Drive, you can even create “public” shared folders where your files can be viewed by anyone on the web. →

The problem is how do you keep people in the loop when you add new files to a shared folders. Also, the less tech-savvy crowd may still prefer to receive these shared files as email attachments instead of using Dropbox or Google Drive.

shared folders

iBeam.it, a new web service from Wappolf, is trying to solve this problem in an interesting way. Here you can put your files on Google Drive or Dropbox as before and the files are instantly “beamed” to other users who are watching your shared folder.

To get started, you just have to connect any of your Dropbox or Google Drive folder with iBeam.it (it uses OAuth). The folder get a unique URL that others can use to follow your folder (see this sample folder).

The “followers” are unaware of the service that you are using to host your files and they may choose to “receive” them inside Google Drive, Dropbox, Evernote, SkyDrive, Box and other popular services. Alternatively, they may choose to follow your Shared Folder through email and in that case, they will get your files as email attachments.

The service is free though you are only allowed to beam files up to 25 MB in size. Most email programs won’t handle attachments that large anyway. Also, sharing is one way – if you delete a file from the shared folder, it won’t be deleted from the folders of other users.

Similar things can possibly be done through IFTTT but iBeam.it is super-easy and doesn’t even require you to create an account.

Tweet this Share on Facebook


Digital Inspiration @labnolThis story, A New Way to Publish your Shared Folders on the Web, was originally published at Digital Inspiration on 17/12/2012 under Dropbox, Google Drive, Internet.

Find the Top Tourist Attractions of a City with Google

To contact us Click HERE

If you are travelling to a new city, you can use Google to quickly discover all the tourist attractions and other interesting places to visit in and around that city. This includes historical monuments, museums, gardens, and other places popular among tourists. →

The syntax for your Google query should be Things to do in City. You may also use this query with a country – like Things to do in India – and Google will offer you a visual list of the top places to see in that country. It works for continents too.

You may try a search for Agra, Zurich, Australia and Asia. Thanks John Mueller for the tip.

Points of Interest in a City

Things to Do in a City

Tweet this Share on Facebook


Digital Inspiration @labnolThis story, Find the Top Tourist Attractions of a City with Google, was originally published at Digital Inspiration on 20/12/2012 under Google, Internet.

Remotely Send Web Pages to your Mobile Device

To contact us Click HERE

Remote URL

Framote is new tool that helps you share “live” URLs that can be controlled remotely.

To get started, you can specify any website – say cnn.com – and Framote will create a unique URL for that site. You can share that URL with a group of people and everyone will see the same website on their screens. If you update the underlying website at your end, all the other screens are refreshed automatically.

The service is especially useful for testing responsive designs. You can have the main website on your desktop computer and load the corresponding Framote URLs on your tablets and mobile phones. If you open a different page on your desktop, the mobile screens are updated automatically.

Internally, Framote embeds the source website into an IFRAME and makes an AJAX request to check the actual URL every few seconds. If the source URL has been modified, the IFRAME’s source attribute on the client’s screen is updated almost instantly. The Framote dashboard will also show list of IP address and devices that are accessing your unique URL.

Tweet this Share on Facebook


Digital Inspiration @labnolThis story, Remotely Send Web Pages to your Mobile Device, was originally published at Digital Inspiration on 21/12/2012 under Web Design, Internet.

YouTube Publishers Can Embed Links to External Websites in Videos

To contact us Click HERE

Some good news for YouTube publishers. You can now embed links in your YouTube videos using the annotations feature of YouTube. These hyperlinks may either point to your website’s homepage or to any other internal webpage of a site that is associated with your YouTube account or channel. →

YouTube Video Annotations

Thus, if your YouTube video explains how to boil an egg, you can insert an annotation linking to your blog post where the steps are described in greater detail. Or if your video contains a news footage, the annotation may point to the text version of the new story hosted on your own website.

The links are clickable and work even if the YouTube video is embedded on to another website. Here are some YouTube videos where I have enabled URL annotations.

  • Create Custom Facebook Pages
  • Reveal the Hidden Passwords in Browsers

How to Add Links in your YouTube Videos

Before you can embed links in your YouTube videos, you need to associate your websites with your YouTube channel (in case you haven’t done it before).

Sign-in to your Google Webmasters account and click the site name that you would like to associate with YouTube. Then go to Configuration -> Associates -> Add New User and enter the email address that is associate with your YouTube channel. Now your website is linked to your YouTube account.

Associate Website with YouTube

Link your website(s) with your YouTube channel.

Next, go to youtube.com/verify and associate your phone number with your YouTube channel. Phone verification is essential for YouTube to enable extra features in your account which includes videos URL annotations and the ability to upload videos of unlimited length to YouTube.

Related: Add Logos to your YouTube Videos

Once the account is verified, open any of YouTube videos and click the “Annotations” link to create and edit annotations for that video. Here you’ll see a banner that says “Enable your account for external annotation links” – click the “Enable” button and you are all set to create annotations to external websites now.

While you are inside the Annotations edition, click the Add annotation button to create a new annotation and choose between Speech Bubbles, Notes, Spotlight or Label. Select the “Link” checkbox, choose “Associated Website” from the drop-down and paste the URL. Publish and you’re done.

YouTube Video - Lower Third

One more thing. While you can place annotations anywhere in the video player, it may be a good idea to avoid the lower third as the area is often used to display ads.

Also see: Best Chrome Extensions for YouTube

Tweet this Share on Facebook


Digital Inspiration @labnolThis story, YouTube Publishers Can Embed Links to External Websites in Videos, was originally published at Digital Inspiration on 25/12/2012 under Embed, YouTube, Internet.

Keep your Google Contacts Up to Date!

To contact us Click HERE

You have several incomplete entries in your Google Contacts. Some entries are missing phone numbers, others don’t have any mailing address associated with them while in the case of close friends and family members, you don’t even have a record of their birthdays. →

How do you get this missing information from contacts and complete your address book?

You can always send them an email or make a phone call and fill-in the missing details manually or there’s a new and better alternative – you can ask your contacts to directly update their own records in your Google Contacts.

http://www.youtube.com/watch?v=SMxvZgK4BMg

Ask Friends to Update your Google Contacts

It works something like this. Your selected contacts are sent a unique URL that points to a web form. They can fill-in the missing data, press the Submit button and all that information is directly added to your Google Contacts. Simple.

To get started, go to your Google Contacts and create a new group (let’s call it Personal). Now put one or more contacts into this new group – all these group members will get an automatic email from you requesting them to update their own records in Google Contacts.

Next open this Google Script and follow these steps:

  1. Choose File -> Make a Copy to create a copy of the script into your own Google Drive.
  2. Update the values of NAME and GROUP variables with the actual values.
  3. Go to File -> Manage Versions and Save a new version.
  4. Go to Publish -> Deploy as Web App, choose “Anyone, even Anonymous” under “Who can access the app” and click the Deploy button.
  5. Go to Run -> Initialize to authorize the script. Choose Run -> Initialize to run the script.

That’s it. All your contacts who are part of that particular Google Contacts group will now receive an email from you (screenshot A). When any of these contacts update their details through the form (screenshot B), you will be notified of the change via email.

Also see: Mail Merge with Gmail and Google Docs

Update Google Contacts

Screenshot A: Your friend gets an email requesting them to update their contact information.

Google Contacts Form

Screenshot B: They can fill the form and their details are added directly into your Google Contacts.

The project is created using Google Scripts and the entire source code is available online. If you ever wish to disable the Google Contacts form, open the same Google Script in your Google Drive and unpublish the web app (under Publish -> Deploy as web app).

Also, this version of the project request essential contact details like Mailing Address, Mobile Number, Skype ID, etc. but you can easily extend the script /web form to include additional fields like Anniversary date, Company name and so on.

Tweet this Share on Facebook


Digital Inspiration @labnolThis story, Keep your Google Contacts Up to Date!, was originally published at Digital Inspiration on 26/12/2012 under Google Contacts, Internet.

20 Aralık 2012 Perşembe

YouTube's App for iPad

To contact us Click HERE

Three months after releasing an app for iPhone, YouTube updated it and added an interface optimized for iPad. The lack of a built-in YouTube app for iPad created an opportunity for other developers to come up with their own YouTube apps and some of them are pretty good.


YouTube also updated the app to fill the entire 4-inch display of the iPhone 5 and added AirPlay support. The initial version of the app didn't have AirPlay support and asked users to enable AirPlay mirroring, an inefficient method to play videos on an Apple TV. The new version supports AirPlay, but it uses a non-standard video player and videos stop playing on the Apple TV when you close the app. Another side-effect is that you still can't use the background audio trick that lets you play songs or any other videos while opening another app or after locking the device. Both features are available in Apple's old YouTube app and YouTube's mobile web app.


Obviously, YouTube's app has a lot of features that weren't available in the built-in app: recommendations, unified video history, voice search, closed captions, activity feeds. Unfortunately, the iPad app has a pretty low information density and most sections show fewer videos than Apple's YouTube app. For example, the search feature shows only 4 results at a time in the landscape mode, while Apple's app displayed 12 results. YouTube offers some advanced search options: sorting by date, ratings or view count, finding recent videos and filtering by duration, but the interface tries too hard to be consistent with the desktop interface, while ignoring that a tablet has a small screen. Apple's App Store app from iOS 6 made a similar mistake by showing a small number of results at a time.

Google Now's Research Card

To contact us Click HERE
The Google Search app for Android 4.1+ has been updated with new cards for events nearby, boarding passes, walking and biking activity, birthdays.

There's also a new card for research topics. Google tries to find in your search history a list of related queries. If you've been researching a topic, it's likely that you've tried different versions of a query and you've clicked many search results. Google Now shows a card with other useful pages from the same topic. It's interesting to notice that Google can find the name of the topic and shows a page that groups results for various queries. Google also includes a "history" section with pages you've already visited.

For some reason, the pages generated by Google return an error messages if you try to open them using a desktop browser. You need to change the user-agent to open pages with URLs like https://www.google.com/now/topics/t/LONGID.


"The research topics card appears when your recent Web History includes several searches related to a single topic – such as a trip you're planning – and Google detects relevant webpages that you may not have found yet. For this card to appear, you must have Web History turned on for the account you use with Google Now. To explore more links that may be relevant to the topic, touch Explore at the bottom of the card. From the list of links, touch the History tab to view a summary of your recent Web History related to this topic," informs Google.

YouTube's New Interface

To contact us Click HERE
After so many posts about YouTube's experimental interfaces, it's time for the public release. The new interface is rolled out to everyone and you no longer have to change your YouTube cookie to try it.


"On YouTube video always comes first, and with this new design the site gets out of the way and lets content truly shine. Videos are now at the top of the page, with title and social actions below. Also, playlists have been moved up, so you can easily browse through videos while you watch. Now when you subscribe to your favorite channels, we will add them to your Guide and make them available on every page of the site, and on your mobile device, tablet, and TV," explains YouTube.

The guide is actually a sidebar that's now available on every YouTube page and lets you check your subscriptions, your playlists and the video history. You can also see a list of other videos from the previous page, so you can quickly watch another search result, a different video from the same channel or another video from the homepage.


Google's Card-Style OneBoxes

To contact us Click HERE
Google updated the desktop OneBoxes for definitions and local time to match the card layout from Google Now. The same layout is also used in the mobile search UI for most Google OneBoxes.



What's unique about the cards? They're much bigger, they include a lot more information, more white space and more distinctive headers. They stand out more and they're harder to ignore.

{ Thanks, Milivella, Arpit, Mikhail. }

New SafeSearch Settings for Google Image Search

To contact us Click HERE
Google tried to simplify a feature using some clever algorithms, but made some people unhappy. Google's SafeSearch settings have always been difficult to understand and Google replaced the three options that were available (strict filtering, moderate filtering - default, no filtering) with only two options (filter explicit results, don't filter explicit results - default).

Here are the old filtering options:

- "Strict filtering filters sexually explicit video and images from Google Search result pages, as well as results that might link to explicit content."

- "Moderate filtering excludes sexually explicit video and images from Google Search result pages, but does not filter results that might link to explicit content. This is the default SafeSearch setting."

- "No filtering turns off SafeSearch filtering completely."


The new filtering options are even more difficult to understand. The default option is supposed to disable filtering, but it's actually a combination of "moderate filtering" and "no filtering", depending of the query. For innocent queries like [sherilyn fenn movies] Google switches to moderate filtering since it's not very likely that you're asking for explicit content. If you add some unambiguous keywords like "xxx" to the query, Google actually disables filtering.

Here's how Google describes the new settings: "In the SafeSearch Filtering section, click the checkbox to filter sexually explicit video and images from Google Search result pages, as well as results that might link to explicit content. If you choose to leave it unchecked, we will provide the most relevant results for your query and may serve explicit content when you search for it." So Google may show explicit images, but only if it's obvious that you're searching for it. No algorithm is perfect, so you'll probably find many examples when this doesn't work as intended.


A Google representative told CNet: "We are not censoring any adult content, and want to show users exactly what they are looking for - but we aim not to show sexually-explicit results unless a user is specifically searching for them. We use algorithms to select the most relevant results for a given query. If you're looking for adult content, you can find it without having to change the default setting - you just may need to be more explicit in your query if your search terms are potentially ambiguous. The image search settings now work the same way as in Web search."

For now, Google only changed how SafeSearch works for google.com, so the old settings are still available at google.co.uk and other country-specific Google sites.

16 Aralık 2012 Pazar

Continuing the quest for future computer scientists with CS4HS

To contact us Click HERE


Computer Science for High School (CS4HS) began five years ago with a simple question: How can we help create a much needed influx of CS majors into universities and the workforce? We took our questions to three of our university partners--University of Washington, Carnegie Mellon, and UCLA--and together we came up with CS4HS. The model was based on a “train the trainer” technique. By focusing our efforts on teachers and bringing them the skills they need to implement CS into their classrooms, we would be able to reach even more students. With grants from Google, our partner universities created curriculum and put together hands-on, community-based workshops for their local area teachers.

Since the initial experiment, CS4HS has exploded into a worldwide program, reaching more than 4,000 teachers and 200,000 students either directly or indirectly in more than 34 countries. These hands-on, in-person workshops are a hallmark of our program, and we will continue to fund these projects going forward. (For information on how to apply, please see our website.) The success of this popular program speaks for itself, as we receive more quality proposals each year. But success comes at a price, and we have found that the current format of the workshops is not infinitely scalable.

This is where Research at Google comes in. This year, we are experimenting with a new model for CS4HS workshops. By harnessing the success of online courses such as Power Searching with Google, and utilizing open-source platforms like the one found in Course Builder, we are hoping to put the “M” in “MOOC” and reach a broader audience of educators, eager to learn how to teach CS in their classrooms.

For this pilot, we are looking to sponsor two online workshops, one that is geared toward CS teachers, and one that is geared toward CS for non-CS teachers to go live in 2013. This is a way for a university (or several colleges working together) to create one incredible workshop that has the potential to reach thousands of enthusiastic teachers. Just as with our in-person workshops, applications will be open to college, university, and technical schools of higher learning only, as we depend on their curriculum expertise to put together the most engaging programs. For this pilot, we will be looking for MOOC proposals in the US and Canada only.

We are really excited about the possibilities of this new format, and we are looking for quality applications to fund. While applications don’t have to run on our Course Builder platform, we may be able to offer some additional support to funded projects that do. If you are interested in joining our experiment or just learning more, you can find information on how to apply on our CS4HS website (or click here).

Applications are open until February 16, 2013; we can’t wait to see what you come up with. If you have questions, please email us at cs4hs@google.com.