Home For Sale – 1801 Carlotta Ln, Austin, TX 78733

Modern luxury nestled in the prestigious Rio Robles subdivision. Doug Connolly Builders/Vanguard Architects custom home. Located in highly desirable Eanes ISD. Blocks from 2 Lake Austin access points and private dock. Custom designed pool, spa, and landscaping by Root Design Co., complete with outdoor shower. MUST SEE! Lower lot fenced, custom chicken coop, & livestock welcome. Acre plus, secluded lot with 100-year-old oaks surrounding for maximum privacy. Mature, meticulous landscaping with native plants (low maintenance) and corner to corner empire zoysia. Fully irrigated. Energy-efficient home with radiant barrier roofing, polished concrete floors, dual climate control, multi LP HVAC, AC, and two tankless water heaters. Large two-car garage with boat port and parking for 6+. Open floor plan with vaulted ceilings and skylights. Low tax rate.

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Home For Sale – 3905 Myrick Dr, Austin, TX 78731

Lovely single story home in the gated, Northwest Hills community, of Mesa Forest. Light and bright with high ceilings, open living/dining spaces and multiple living/ home office options. Also, the possibility of 2 primary suites. The primary bedroom opens to an inviting sunroom/exercise room that overlooks a nice sized private grassed backyard. Community pool in the neighborhood. Recently installed two HVAC systems in July 2020. Over 400 square-feet of enclosed attic space with an electric lift. Owner/Agent

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About Virgin Orbit – Air-Launched From A Soaring Boeing 747

We Are On A Mission To Open Space For Everyone

Small satellites are ushering in a new era of space capabilities — connecting us across vast distances, stimulating the global economy, and expanding the limits of human knowledge. This rapidly growing industry requires a launch service that is as agile and affordable as the satellites themselves. But until now, there hasn’t been one.

Enter Virgin Orbit’s LauncherOne system: a rocket that combines proven technology with state-of-the-art manufacturing techniques to propel human curiosity to new heights.
VIEW THE VISION

The Drive To Enhance Life On Earth
From connecting rural communities to monitoring global climate change, our customers are using space to drive lasting positive change back on Earth.

BREAKING BARRIERSGIVING ACCESS TO SPACE
We’re enabling space veterans to do new missions in new ways, while also turning dreams into a reality for students, gung-ho entrepreneurs, and everyone else who never thought they’d be able to reach orbit.

 

THE SMALL SATELLIT EREVOLUTION IS HERE
Historically, small satellite operators have had little to no control over their launch schedules, and often never get an opportunity to launch at all. With only 90 flights to space in all of 2017, it’s clear that rideshares alone aren’t enough to provide the level of service and flexibility small satellites demand.

We think it’s about time the launch industry caught up. Virgin Orbit is here to set a new pace.

 

 

HOW OUR CLIENTS USE THEIR SMALL SATELLITES

The world-leading space agency, and perhaps one of the best recognized brands in the world, is an early adopter of Virgin Orbit and the LauncherOne service. Its Venture Class Launch Services program purchased a flight from Virgin Orbit with the specific intention of paving the way for the agency to use LauncherOne on a repeated basis.

 

VISION FOR THE FUTURE
LauncherOne is a great place to start, but our ambitions extend far beyond just one vehicle. We’ll continue to innovate on the production side to minimize costs, while also scaling up our launch rate to an unprecedented frequency. At the same time, we’re keeping our ears to the ground to keep up with our customers and the market’s rapidly changing needs. We want to ensure we’re enabling their next generation of world-changing space technology, while also bringing new space players into the fold.

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Taught by AI, Incredible Aerial Acrobatics Drones – Online Sale

Researchers at the University of Zurich, in collaboration with Intel, have developed a training method for drones that allows them to perform extreme acrobatic maneuvers autonomously. Ino fact, such maneuvers would be particularly challenging even for a human pilot.
Force1 U49WF Wi-Fi FPV Drone with HD Video Camera

Take Aerial Shots & Videos Using This Wi-Fi FPV Drone with Video Camera
Description
Enjoy the first-person view with this U49WF Wi-Fi Drone & Video Camera from Force1. Connect this remote control drone to your iPhone or Android with ease to get stable 720p HD video drone footage. The drone comes fully loaded with three speed settings as well as 1-key take-off and landing to make flying a breeze. It also has several high-tech features such as altitude hold, headless mode, full trim, and real-time WiFi FPV, making it easy to capture great footage with the built-in camera. Enjoy flying the U49W for up to 25 minutes total flying time with the included extra drone battery.

Record real-time HD camera drone footage
Connect this drone to your iPhone or Android for first-person view flight
Enjoy up to 25 minutes of total flying time
Experience high-tech features including altitude hold, headless mode, full trim & real-time Wi-Fi FPV
Compatible w/ VR headsets
Specs
Materials: plastic, metal & wires
Product dimensions: 15″H x 14″L x 5.5″W
3 speeds
25-minute flight time
Altitude hold
Headless mode
Full trim
Real-time FPV
Compatibility
Can be connected to iPhone & Android
Compatible w/ VR headsets
Includes
U49W Wi-Fi drone
720p HD camera
2.4Ghz remote controller
2x 7.4V 1000mAh Li-Po battery
USB charger cable
Micro USB cable
User manual
4x extra propellers
Drone tools
Shipping
Ships To US
Expected Delivery: Jan 30 – Feb 2
Terms
Returns accepted within 30 days of shipment for orders within the Contiguous US.
Give $10, Get $10

Related Deal

Micro Drone 3.0 – Combo Pack
$129.9

Micro Drone 2.0+ with HD-Camera
$74.99

E88 Four-Axis High-Definition Aerial Photography Drone
$59.95

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An Interesting Confrontation – Maia Explores The Human Side Of AI For Chess

 

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As artificial intelligence continues its rapid progress, equaling or surpassing human performance on benchmarks in an increasing range of tasks, researchers in the field are directing more effort to the interaction between humans and AI in domains where both are active. Chess stands as a model system for studying how people can collaborate with AI, or learn from AI, just as chess has served as a leading indicator of many central questions in AI throughout the field’s history.
AI-powered chess engines have consistently bested human players since 2005, and the chess world has undergone further shifts since then, such as the introduction of the heuristics-based Stockfish engine in 2008 and the deep reinforcement learning-based AlphaZero engine in 2017. The impact of this evolution has been monumental: chess is now seeing record numbers of people playing the game even as AI itself continues to get better at playing. These shifts have created a unique testbed for studying the interactions between humans and AI: formidable AI chess-playing ability combined with a large, growing human interest in the game has resulted in a wide variety of playing styles and player skill levels.
There’s a lot of work out there that attempts to match AI chess play to varying human skill levels, but the result is often AI that makes decisions and plays moves differently than human players at that skill level. The goal for our research is to better bridge the gap between AI and human chess-playing abilities. The question for AI and its ability to learn is: can AI make the same fine-grained decisions that humans do at a specific skill level? This is a good starting point for aligning AI with human behavior in chess.
• PUBLICATION
Our team of researchers at the University of Toronto, Microsoft Research, and Cornell University has begun investigating how to better match AI to different human skill levels and, beyond that, personalize an AI model to a specific player’s playing style. Our work comprises two papers, “Aligning Superhuman AI with Human Behavior: Chess as a Model System” and “Learning Personalized Behaviors of Human Behavior in Chess,” as well as a novel chess engine, called Maia, which is trained on games played by humans to more closely match human play. Our results show that, in fact, human decisions at different levels of skill can be predicted by AI, even at the individual level. This represents a step forward in modeling human decisions in chess, opening new possibilities for collaboration and learning between humans and AI.
AlphaZero changed how AI played the game by practicing against itself with only knowledge of the rules (“self-play”), unlike previous models that relied heavily on libraries of moves and past games to inform training. Our model, Maia, is a customized version of Leela Chess Zero (an open-source implementation of AlphaZero). We trained Maia on human games with the goal of playing the most human-like moves, instead of being trained on self-play games with the goal of playing the optimal moves. In order to characterize human chess-playing at different skill levels, we developed a suite of nine Maias, one for each Elo rating between 1100 and 1900. (Elo ratings are a system for evaluating players’ relative skill in games like chess.) As you’ll see below, Maia matches human play more closely than any chess engine ever created.
• CODEExplore our nine final maia models saved as Leela Chess neural networks, and the code to create more and reproduce our results.
If you’re curious, you can play against a few versions of Maia on Lichess, the popular open-source online chess platform. Our bots on Lichess are named maia1, maia5, and maia9, which we trained on human games at Elo rating 1100, 1500, and 1900, respectively. You can also download these bots and other resources from the GitHub repo.
Measuring human play
What does it mean for a chess engine to match human play? For our purposes, we settled on a simple metric: given a position that occurred in an actual human game, what is the probability that the engine plays the move that the human played in the game?
Making an engine that matches human play according to this definition is a difficult task. The vast majority of positions seen in real games only happen once, because the sheer number of possible positions is astronomical: after just four moves by each player, the number of potential positions enters the hundreds of billions. Moreover, people have a wide variety of styles, even at the same rough skill level. And even the same exact person might make a different move if they see the same position twice!
Creating a dataset
To rigorously compare engines in how well they match human play, we need a good test set to evaluate them with. We made a collection of nine test sets, one for each narrow rating range. Here’s how we made them:
• First, we made rating bins for each range of 100 rating points (such as 1200-1299, 1300-1399, and so on).
• In each bin, we put all games where both players are in the same rating range.
• We drew 10,000 games from each bin, ignoring games played at Bullet and HyperBullet speeds. At those speeds (one minute or less per player), players tend to play lower quality moves to not lose by running out of time.
• Within each game, we discarded the first 10 moves made by each player to ignore most memorized opening moves.
• We also discarded any move where the player had less than 30 seconds to complete the rest of the game (to avoid situations where players are making random moves).
After these restrictions we had nine test sets, one for each rating range, which contained roughly 500,000 positions each.
Spotlight: Academic programs

Working with the academic community
Read more about grants, fellowships, events and other ways to connect with Microsoft research.
Differentiating our work from prior attempts
People have been trying to create chess engines that accurately match human play for decades. For one thing, they would make great sparring partners. But getting crushed like a bug every single game isn’t that fun, so the most popular attempts at engines that match human play have been some kind of attenuated version of a strong chess engine. Attenuated versions of an engine are created by limiting the engine’s ability in some way, such as reducing the amount of data it’s trained on or limiting how deeply it searches to find a move. For example, the “play with the computer” feature on Lichess is a series of Stockfish models that are limited in the number of moves they are allowed to look ahead. Chess.com, ICC, FICS, and other platforms all have similar engines. How well do these engines match human play?
Stockfish: We created several attenuated versions of Stockfish, one for each depth limit (for example, the depth 3 Stockfish can only look 3 moves ahead), and then we tested them on our test sets. In the plot below, we break out the accuracies by rating level so you can see if the engine thinks more like players of a specific skill level.
Figure 1: Move matching accuracy for Stockfish compared with the targeted player’s Elo rating
As you can see, it doesn’t work that well. Attenuated versions of Stockfish only match human moves about 35-40% of the time. And equally importantly, each curve is strictly increasing, meaning that even depth-1 Stockfish does a better job at matching 1900-rated human moves than it does at matching 1100-rated human moves. This means that attenuating Stockfish by restricting the depth it can search doesn’t capture human play at lower skill levels—instead, it looks like it’s playing regular Stockfish chess with a lot of noise mixed in.
Leela Chess Zero: Attenuating Stockfish doesn’t characterize human play at specific levels. What about Leela Chess Zero, an open-source implementation of AlphaZero, which learns chess through self-play games and deep reinforcement learning? Unlike Stockfish, Leela incorporates no human knowledge in its design. Despite this, however, the chess community was very excited by how Leela seemed to play more like human players.
Figure 2: Move matching accuracy for Leela compared with the targeted player’s Elo rating
In the analysis above, we looked at a number of different Leela generations, with the ratings being their relative skill (commentators noted that early Leela generations played particularly similar to humans). People were right in that the best versions of Leela match human moves more often than Stockfish. But Leela still doesn’t capture human play at different skill levels: each version is always getting better or always getting worse as the human skill level increases. To characterize human play at a particular level, we need another approach.
Maia: A better solution for matching human skill levels
Maia is an engine designed to play like humans at a particular skill level. To achieve this, we adapted the AlphaZero/Leela Chess framework to learn from human games. We created nine different versions, one for each rating range from 1100-1199 to 1900-1999. We made nine training datasets in the same way that we made the test datasets (described above), with each training set containing 12 million games. We then trained a separate Maia model for each rating bin to create our nine Maias, from Maia 1100 to Maia 1900.
Figure 3: Move matching accuracy for Maia compared with the targeted player’s Elo rating
As you can see, the Maia results are qualitatively different from Stockfish and Leela. First off, the move matching performance is much higher: Maia’s lowest accuracy, when it is trained on 1900-rated players but predicts moves made by 1100-rated players, is 46%—as high as the best performance achieved by any Stockfish or Leela model on any human skill level we tested. Maia’s highest accuracy is over 52%. Over half the time, Maia 1900 predicts the exact move a 1900-rated human played in an actual game.
Figure 4: Move matching accuracy for all the models compared with the targeted player’s Elo rating
Importantly, every version of Maia uniquely captures a specific human skill level since every curve achieves its maximum accuracy at a different human rating. Even Maia 1100 achieves over 50% accuracy in predicting 1100-rated moves, and it’s much better at predicting 1100-rated players than 1900-rated players!
This means something deep about chess: there is such a thing as “1100-rated style.” And furthermore, it can be captured by a machine learning model. This was surprising to us: it would have been possible that human play is a mixture of good moves and random blunders, with 1100-rated players blundering more often and 1900-rated players blundering less often. Then it would have been impossible to capture 1100-rated style, because random blunders are impossible to predict. But since we can predict human play at different levels, there is a reliable, predictable, and maybe even algorithmically teachable difference between one human skill level and the next.
Maia’s predictions
You can find all of the juicy details in the paper, but one of the most exciting things about Maia is that it can predict mistakes. Even when a human makes an absolute howler—“hanging” a queen, in other words letting an opponent capture it for free, for example—Maia predicts the exact mistake made more than 25% of the time. This could be really valuable for average players trying to improve their game: Maia could look at your games and tell which blunders were predictable and which were random mistakes. If your mistakes are predictable, you know what to work on to hit the next level.
Figure 5: Move matching accuracy as a function of the quality of the move played in the game
Modeling individual players’ styles with Maia
In current work, we are pushing the modeling of human play to the next level: can we actually predict the moves a particular human player would make?
It turns out that personalizing Maia gives us our biggest performance gains. Whereas base Maia predicts human moves around 50% of the time, some personalized models can predict an individual’s moves with accuracies up to 75%!
We achieve these results by fine-tuning Maia. Starting with a base Maia, say Maia 1900, we update the model by continuing training on an individual player’s games. Below, you can see that for predicting individual players’ moves, the personalized models all show large improvements over the non-personalized models. The gains are so large that the personalized models are almost non-overlapping with the non-personalized ones: the personalized model for the hardest-to-predict player still gets almost 60% accuracy, whereas even the non-personalized models don’t achieve this accuracy on even the easiest-to-predict players.

The personalized models are so accurate that given just a few games, we can tell which player played them! In this stylometry task—where the goal is to recognize an individual’s playing style—we train personalized models for 400 players of varying skill levels, and then have each model predict the moves from 4 games by each player. For 96% of the 4-game sets we tested, the personalized model that achieved the highest accuracy (that is, predicted the player’s actual moves most often) was the one that was trained on the player who played the games. With only 4 games of data, we can pick out who played the games from a set of 400 players. The personalized models are capturing individual chess-playing style in a highly accurate way.
Using AI to help improve human chess play
We designed Maia to be a chess engine that predicts human moves at a particular skill level, and it has progressed into a personalized engine that can identify the games of individual players. This is an exciting step forward in our understanding of human chess play, and it brings us closer to our goal of creating AI chess-teaching tools that help humans improve. Among the many capabilities of a good chess teacher, two of them are understanding how students at different skill levels play and recognizing the playing styles of their students. Maia has shown that these capabilities are realizable using AI.
The ability to create personalized chess engines from publicly available, individual player data opens an interesting discussion on the possible uses (and misuses) of this technology. We initiate this discussion in our papers, but there is a long road ahead in understanding the full potential and implications of this line of research. As in countless times before, Chess will be one model AI system that sets the stage for this discussion.
Acknowledgments
Many thanks to Lichess.org for providing the human games that we trained on, and hosting our Maia models that you can play against. Ashton Anderson was supported in part by an NSERC grant, a Microsoft Research gift, and a CFI grant. Jon Kleinberg was supported in part by a Simons Investigator Award, a Vannevar Bush Faculty Fellowship, a MURI grant, and a MacArthur Foundation grant.

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In Pursuit Of Data Harmony – All Hands on Data

Solve complex challenges with sharing and collaboration
You no longer have to choose between empowering the business or protecting your data—with Tableau you can finally do both. Tableau provides a trusted environment where people can find insights in their data, share them with teammates, and make critical decisions.

Securely access data from anywhere
Your analytics should fit into how you already work—in your home, in your office, or on the front lines. With Tableau, monitor your most important dashboards and KPIs on the go, for secure data-driven decisions anytime, anywhere.

Build your analytics on the right data
When people trust their data, they’re more likely to use it to guide their decision making. From data preparation to cataloging, search, and governance, Tableau helps you manage all of the data within your analytics environment. This ensures that data is accurate, up-to-date, and ready when people need it.
Learn more about Tableau
When it comes to elevating people with the power of data, only Tableau combines a laser focus on how people see and understand data with the kind of robust, scalable platform you need to run even the world’s largest organizations.

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The Last 70 Years And New SEAT Leon Awarded A Five-Star Safety By Euro NCAP

As 2020 comes to an end, and despite the circumstances we were all faced with this year, we want to take the opportunity to celebrate 70 years of evolution and modernisation at SEAT. Over the years, we have launched a grand total of 75 models. As a tribute, we’ve put together a video to show the 48 fundamental models and how we have grown and adapted in the last 70 years. Watch video
New SEAT Leon awarded a five-star safety by Euro NCAP
The all-new SEAT Leon has been awarded a five-star safety rating from testing organisation Euro NCAP. The result is a demonstration of the work completed during the Leon’s development to create a car that delivers one of the safest vehicles on the market, especially as Euro NCAP’s testing methods have become even more challenging in 2020.
A key change for 2020 Euro NCAP’s testing procedures is the introduction of the moving barrier to moving car frontal crash test, replacing the moderate offset-deformable barrier test. The test helps the organisation to evaluate the protection of occupants inside the car, but also assesses how the cars’ front-end structurers contribute to.

That isn’t the only change in the testing procedure. Side impacts have been updated to include adjustments to the near-side barrier test speed and mass, increasing the severity of the test. And for the first time Euro NCAP evaluates far-side impact protection, focusing on driver protection and the potential interaction between driver and front seat passenger.
The all-new SEAT Leon is one of the first cars to face new, more demanding standards.
Euro NCAP has placed further emphasis on the latest generation of crash prevention and driver assistance systems and implemented new scenarios to rate AEB technology including back over situations and turning at a crossing. There is also a system to evaluate Driver Status Monitoring systems, designed to detect driver fatigue and distraction, as part of the Safety Assist assessment.
“We’re extremely proud that the new SEAT Leon achieved Euro NCAP’s top rating in its different variants – 5-Door and Sportstourer body types, combustion engine and PHEV powertrains-, by excelling through even the reimagined and incredibly challenging safety tests for 2020, a reflection of the emphasis we place on safety, and our openness to integrating the latest technologies, whether active or passive, to achieve this goal,” said Dr Werner Tietz, SEAT’s Vice-President for Research and Development.
Safety as part of its DNA.
A range of the latest safety systems based on a mixture of sensor data, allows the all-new SEAT Leon to see the road ahead like never before and, importantly, adapt to changing driving scenarios.
Systems including Autonomous Emergency Braking, Side* and Exit Assist*, Traffic Sign Recognition*, Traffic Jam Assist*, Light Assist* and Pre-Crash Assist*, work in unison to create a protective bubble around the vehicle and for occupants.
The Pre-Crash Assist system for example reacts in just 0.2 seconds should it detect an accident is about to happen – tightening the seatbelts, activating the hazard lights, rolling up the windows and closing the sunroof – helping protect the passenger compartment.
Add to these the integration of seven airbags, including a new standard front-central airbag, Front Assist with vehicles, pedestrians, cyclists detection, Emergency Steering Assist and Junction Assist, Lane Assist and Emergency e-Call and the all-new SEAT Leon delivers one of the safest vehicles available, even when faced with the new testing methods used by Euro NCAP.
The new standard front-central airbag prevents possible head contact between the driver and front passenger in the event of a side collision, for example.
In addition to detecting vehicles, pedestrians and cyclists, the Front Assist also includes Emergency Steering Assist and Junction Assist. During a Front Assist intervention, after the driver’s initial steering input to avoid an object, the Emergency Steering Assist makes targeted steering and braking interventions to help find an optimised evading trajectory.
The numbers prove the theory.
Both combustion engine and plug-in hybrid variants of the all-new SEAT Leon were tested by Euro NCAP, scoring highly in all areas: Adult Occupant 92%, Child Occupant 88%, Vulnerable Road User 71% and Safety Assist 80%.
Euro NCAP re-evaluates its testing practices every two year, and 2020’s are the strictest and most thorough to date, and SEAT is determined to continue to develop vehicles that excel during the tests, no matter how strict they become.
* optional equipment.

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Jukin Successful Media – TV, Mobile Devices or Incorporate The Content Into TV/Video Commercials

 

Vice President of Sales, East, John Taranto Shares His Narrative on Video Assets in 2020 and His Time With Jukin
Jukin Media


Today, we are joined by Jukin’s VP of Sales, East, John Taranto to talk about his substantial career working with media and how his vast amount of experience has helped him sharpen his skills as a thought leader and flourish in the media sales environment.
Can you tell us a little bit about how your journey with Jukin has been and how you ended up here?

My journey with Jukin so far has been fantastic. I have been in media for the past 20 years, mainly in the video space. My experience prior to coming aboard has prepared me for the challenges that Jukin faces in this ever-evolving market. It’s inspiring to be part of a company that is rooted in authenticity and is growing.
If your grandparents asked you what you do for work at Jukin Media, what would you tell them? (Please, spare no details).

That we are the Getty Images for content that is captured by real people in real-time. We’ve licensed over 50,000 pieces of video content that are categorized into several disparate channels but all have the common theme of authenticity. You can watch it on TV, your mobile devices or incorporate the content into TV/Video commercials.
Could you share something you’ve learned about yourself during your time as a part of the company?

I’ve learned that my experiences across the past two decades are relevant and can help shape how we will grow Jukin over the next several years.
Jukin is a fun place to work, what are some of your favorite memories?

So far it’s been all video so it’s really been limited to banter on our internal calls. The people here are genuinely good-hearted and fun to work with.
What are some of the common situations or misconceptions you deal with on a day to day basis?

That we are more than a licensing company. We are viewed as more of a creative company than a media company, which is good because we can control the narrative as we enter the minds of the media community.
Brands and agencies have had to be innovative in the way they reach consumers this year. What is a new trend in media and advertising that you’re excited about?

Three key points that we excel at- Authenticity in a post covid world, scale across multiple platforms, and turnkey solutions that don’t require heavy lifts or overly long timelines.
What’s the best career advice you’ve given to coworkers or other up-and-coming professionals?

Learn as much as you can about the industry. What sets you apart in this business is how much of a resource you are and not just the property you represent. Be your own brand.

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Home For Sale – 4113 Circletree Loop, Austin, TX 78731

Beautifully updated NW Hills single-story home on a quiet looped street! Enjoy a spacious front lawn then retreat to serene, private backyard oasis w/pool & huge covered patio. Spacious floor plan offers 2 masters or extra living, hardwood floors, beautiful kitchen with granite/stainless, 3 fully updated bathrooms, walk-in laundry/utility, large bedrooms, and an over-sized attached garage.

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About Mercedes-Benz X-Class Price & Specs – CarsGuide

• Ford updated the Ranger with an update for the 2018 model year, and this isn’t just because the current-generation PX model (otherwise known as the “T6”) has been around for seven years. The Ranger nameplate is heading back to the US after a seven year hiatus, with American-built examples to roll out of Michigan from mid-2018 as a 2019 model year. Aussie customers will be able to get their hands on the updated 2018 model from mid-year, including the all-new Ranger Raptor! The 2018 changes will be key in tackling fresh rivals like the Mercedes-Benz X-Class, plus existing foes like the Toyota HiLux and the Mazda BT-50.
Show more
• If the vehicle has been serviced at a Mercedes-Benz dealer, all the information about that history can be accessed online. Any dealer should be able to tap into that history file and tell you what you need to know. You can also establish (if you haven’t already) a `Mercedes me’ account via the factory website and this will enable you to check out the car’s entire service background. A dealer will be able to help you establish your Mercedes me account.
If you’re after an owner’s manual, there’s one included on the car’s hard-drive if the vehicle is fitted with the Mercedes Command system (which was standard on the Power trim level and optional on the Progressive) which you can access via the info-screen in the dashboard. Failing that, this link will get you top the relevant online subject matter

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