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 page.metaDescription=Android Auto

 @jd:body

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 <div style="width:780px; margin:0 auto;">

 <div id="qv-wrapper">
 <div id="qv">
 <h2>In this document</h2>
 <ol>
   <li><a href="#design">Design</a>
     <ol>
       <li><a href="#designprinciples">Design Principles</a></li>
       <li><a href="#uioverview">UI Overview</a></li>
     </ol>
   </li>
   <li><a href="#architecture">Architecture</a></li>
   <li><a href="#ui">User Interface</a>
     <ol>
       <li><a href="#launchapp">Launch App</a></li>
       <li><a href="#useractions">User Actions</a></li>
       <li><a href="#drawertransitions">Drawer Transitions</a></li>
       <li><a href="#daynighttransitions">Day and Night Transitions</a></li>
       <li><a href="#customizeui">Customizing the UI</a></li>
     </ol>
   </li>
   <li><a href="#devprocess">Development Process</a></li>
   <li><a href="#emulator">Testing Your App</a></li>
   <li><a href="#running">Running Your App</a></li>
 </ol>
 </div>
 </div>

 <h1>Android Auto Developer Overview</h1>

 <p>Android Auto extends the Android platform into the car. When users connect
 their Android handheld device to a compatible vehicle, Android Auto provides a car-optimized
 Android experience on the vehicle's screen. Users interact with compatible apps and services
 through voice actions and the vehicle's input controls.</p>

 <p>The Android Auto SDK lets you easily extend your existing apps to work in the car, without
 having to worry about vehicle-specific hardware differences. You can use many Android APIs and
 services you are already familiar with. Android Auto provides an easy to use UI model and
 supports notifications and voice actions:</p>

 <dl>
 <dt style="margin-bottom:10px"><strong>Media UI</strong></dt>
 <dd style="margin-bottom:20px">
 Android Auto defines interaction models and car-specific UI patterns for apps. The
 first version of Android Auto supports media apps, such as music, podcast, live radio, and
 audio news apps.
 </dd>
 <dt style="margin-bottom:10px"><strong>Notifications</strong></dt>
 <dd style="margin-bottom:20px">
 The platform will integrate with existing Android APIs for notifications. Users will get
 car appropiate notifications from Android apps on the vehicle's screen.</dd>

 <dt style="margin-bottom:10px"><strong>Voice Actions</strong></dt>
 <dd style="margin-bottom:20px">
 Android Auto supports a set of voice actions to interact with compatible apps and services.
 Apps can respond to the voice actions they're interested in, such as playing a particular song
 or taking a note.</dd>

 <dt style="margin-bottom:10px"><strong>Easy Development Workflow</strong></dt>
 <dd style="margin-bottom:20px">
 To extend an existing Android app for Android Auto, you implement a set of interfaces and
 services defined in the platform. You can reuse existing functionality and many Android APIs
 you already know.</dd>
 </dl>

 <p>We’ll release the Android Auto SDK in the coming months, which will let you test your
 Android Auto experience on a regular Android device.</p>


 <h2 id="design">Design</h2>

 <p>Android Auto extends users' digital ecosystem into their cars, allowing drivers to stay
 connected to their virtual worlds while staying focused on the road ahead.</p>

 <p>Because driving is the primary activity in the car, any digital experiences should be designed
 to complement and augment that activity. They should never demand the user's attention.</p>

 <p>Designing for cars is fundamentally different than designing for phones or tablets, and
 requires rethinking how experiences unfold. Because attention is limited and not all tasks are
 possible in the car, effective apps leverage the entire set of devices that drivers have,
 leveraging the app experience on those devices, outside of the car, to set the stage for simple
 experiences while driving.</p>

 <p>Android Auto experiences are:</p>

 <p><strong>Glanceable and simple</strong>. Driving requires users' full attention. In-car software
 should not. Android Auto was designed to simplify not only the UI, but to optimize interactions
 and require less thinking, induce lower cognitive load, and ultimately, be safer. Effective apps
 provide just enough information in the minimum amount of time the user needs to glance at it and
 return their attention back to the road. Apps should also reduce the number of features to only
 those that are safe and drive-appropriate.</p>

 <p><strong>Predictive, yet predictable</strong>. Android Auto leverages rich, contextual awareness
 to keep the driver informed about important situations during the drive. Rich, timely help is
 combined with predictable functions. Effective apps make use of the patterns for common tasks and
 show timely information only when relevant.</p>

 <p><strong>Connected</strong>. By leveraging the user's personal ecosystem of apps and services,
 Android Auto promotes a continuous experience from phone to car to other devices. The user's
 music, destinations, and virtual ecosystem are always available to augment the drive. Experiences
 that leverage personal context and other devices are naturally part of Android Auto.</p>

 <p><strong>Naturally integrated</strong>. Android Auto blends the user's apps with the car,
 creating a truly integrated experience that leverages what is unique about each car. By using
 the screens, controls, and capabilities of the vehicle, Android Auto feels like an extension of
 the car.</p>


 <h2 id="architecture">Architecture</h2>

 <p>The Android Auto app shows your app's customized UI on the vehicle's screen. To communicate
 with the Android Auto app, your media app implements a set of media interfaces.</p>

 <div style="width:750px;margin:0 auto">
 <img src="{@docRoot}auto/images/figure01.png" alt="" />
 <p class="img-caption">
   <strong>Figure 1</strong> - Architecture of Android Auto.
 </p>
 </div>

 <p>The architecture consists of the following components:</p>

 <p><strong>Media App</strong> - Runs a media service that exposes content through browsing and
 playback APIs. The service provides content to the Android Auto app. This is your Android app.</p>

 <p><strong>Android Auto App</strong> - Creates the UI and handles user interactions.
 This app uses a media client to request content from the media service running in the media
 app. The client requests data from the media service and monitors service states.</p>

 <p><strong>Vehicle Display</strong> - Shows app content and supports user interaction via
 on-screen soft buttons and other components, such as physical buttons or steering
 wheel controls.</p>

 <p>Android media apps must implement binders to these APIs:</p>

 <ul>
 <li><strong>Browsing</strong> - Enables a media client to browse a hierarchy of a user’s
 media collection, presented as a virtual file system with containers (similar to directories)
 and items (similar to files).</li>
 <li><strong>Playback</strong> - Enables a media client to control media playback and monitor
 playback state through callbacks.</li>
 </ul>


 <h2 id="ui">User Interface</h2>

 <p>The Android Auto app uses a car-specific UI model to display content and user interaction
 opportunities. Android Auto provides you with a standard UI designed to minimize driver
 distraction. You do not have to test a custom UI for for driver distraction, which is a
 lengthy and expensive process involving multiple legislations across the globe and different
 standards for each vehicle OEM.</p>

 <p>The UI defines interfaces for browsing, searching, and listening to content from
 media apps. You can customize the UI colors, action icons, background images, and more.</p>

 <h3 id="launchapp">Launcher</h3>

 <p>The launcher shows all the compatible media apps installed on the user’s
 Android device and lets users select one of them from an scrollable list:</p>

 <div class="auto-img-container-single">
   <div class="auto-img-container">
     <img class="auto-img-frame-cols" src="/auto/images/assets/00_frame.png" />
     <img class="auto-img-shot-cols" src="/auto/images/assets/do_01_switcher.png" />
   </div>
   <p class="img-caption" style="margin-top:0px">
     <strong>Figure 2.</strong> The launcher.
   </p>
 </div>

 <h3>Primary App UI</h3>

 <p>After the user selects a media app, the display shows the primary app UI.
 You can customize this UI to show your own icons, app name, and
 background images. Figure 3 shows an example of a customized UI:</p>

 <div class="cols">
 <div class="auto-col-2">
   <div class="auto-img-container-cols">
     <img class="auto-img-frame-cols" src="{@docRoot}auto/images/assets/00_frame.png" />
     <img class="auto-img-shot-cols" src="{@docRoot}auto/images/assets/do_05_template.png" />
   </div>
 </div>
 <div class="auto-col-2">
   <div class="auto-img-container-cols">
     <img class="auto-img-frame-cols" src="{@docRoot}auto/images/assets/00_frame.png" />
     <img class="auto-img-shot-cols" src="{@docRoot}auto/images/assets/do_02_music.png" />
   </div>
 </div>
 </div>
 <p class="img-caption">
   <strong>Figure 3.</strong> A customized UI.
 </p>


 <h3 id="useractions">User Actions</h3>

 <p>The primary app UI supports four main actions on the action bar, four auxiliary actions
 on the overflow bar, and the <em>Return</em> action. You can use standard controls and customize
 the actions and icons, as shown in Figure 4.</p>

 <div class="auto-img-container-single">
   <div class="auto-img-container">
     <img class="auto-img-frame-cols" src="/auto/images/assets/00_frame.png" />
     <img class="auto-img-shot-cols" src="/auto/images/assets/do_03_more.png" />
   </div>
   <p class="img-caption" style="margin-top:0px">
     <strong>Figure 4.</strong> Custom extra actions.
   </p>
 </div>

 <h3 id="drawertransitions">Drawer Transitions</h3>

 <p>For browse actions, the display shows the drawer transition as shown in Figure 5.</p>

 <div class="cols">
 <div class="auto-col-2">
   <div class="auto-img-container-cols">
     <img class="auto-img-frame-cols" src="{@docRoot}auto/images/assets/00_frame.png" />
     <img class="auto-img-shot-cols" src="{@docRoot}auto/images/assets/do_06_gdrawer.png" />
   </div>
 </div>
 <div class="auto-col-2">
   <div class="auto-img-container-cols">
     <img class="auto-img-frame-cols" src="{@docRoot}auto/images/assets/00_frame.png" />
     <img class="auto-img-shot-cols" src="{@docRoot}auto/images/assets/do_04_mdrawer.png" />
   </div>
 </div>
 </div>
 <p class="img-caption">
   <strong>Figure 5.</strong> Generic and customized drawers.
 </p>

 <p>After the transition from the primary app UI to the drawer UI, the drawer
 appears on the center. The customized drawer UI shows the media containers and
 media files provided by the media service in your app. You can also customize drawers
 with icons for list items.</p>


 <h3 id="daynighttransitions">Day and Night Transitions</h3>

 <p>All the UIs support different color schemes for day and night.
 The platform provides the state (day or night) and makes adjustments automatically.</p>

 <div class="cols">
 <div class="auto-col-2">
   <div class="auto-img-container-cols">
     <img class="auto-img-frame-cols" src="{@docRoot}auto/images/assets/00_frame.png" />
     <img class="auto-img-shot-cols" src="{@docRoot}auto/images/assets/do_02_music.png" />
   </div>
 </div>
 <div class="auto-col-2">
   <div class="auto-img-container-cols">
     <img class="auto-img-frame-cols" src="{@docRoot}auto/images/assets/00_frame.png" />
     <img class="auto-img-shot-cols" src="{@docRoot}auto/images/assets/do_02_music_night.png" />
   </div>
 </div>
 </div>
 <p class="img-caption">
   <strong>Figure 6.</strong> Day and night modes.
 </p>

 <h3 id="customizeui">Customizing UIs</h3>

 <p>To customize the UI, you provide the following app-specific resources and actions
 to the Android Auto media client:</p>

 <ul>
 <li><strong>Resources</strong> - App logo, app name, theme colors, and background images.</li>
 <li><strong>Actions</strong> - Multiple custom actions; for example: <em>Thumbs Up/Down</em>,
 <em>Favorite</em>, and <em>Bookmark</em>. These actions are app-specific.</li>
 </ul>

 <p>If provided, the media client automatically uses them in the UI.</p>


 <h2 id="devprocess">Development Process</h2>

 <p class="note"><strong>Note:</strong> When released, the Android Auto SDK will provide
 media service interfaces, an APK for handheld devices that simulates the Android Auto
 app, and other tools for Android Auto development.</p>

 <p>To create a media app for Android Auto, you include an Android service in your app
 that implements the media service interfaces provided by the Android Auto SDK. These
 interfaces define functionality for browsing and finding content, playing media,
 customizing the UI, and performing app-specific actions.</p>

 <p>The media service interfaces present the content library as a navigable tree and enable
 clients to play media, get album art, obtain theme resources for the UI, and
 invoke app-specific actions.</p>

 <p>You don’t have to create a new app for Android Auto: you can extend your existing
 Android app with implementations of the media service interfaces. Your service exposes
 your app’s media content, theme resources, and app-specific actions using the methods and
 data types specified by the media service interfaces. This simplifies the development
 cycle because:</p>

 <ul>
 <li>You do not have to maintain a separate project for Android Auto</li>
 <li>You can reuse existing functionality from your Android app</li>
 </ul>

 <p>The Android Auto client presents the customized UI to users and invokes the
 functionality from your service as needed. This has two additional advantages:</p>

 <ul>
 <li>Your app does not implement a UI for Android Auto</li>
 <li>Your app does not manage user interactions directly</li>
 </ul>

 <p>This also means that you do not have to worry about vehicle-specific hardware
 differences such as screen resolutions, software interfaces, knobs and touch
 controls.</p>


 <h2 id="emulator">Testing Your App on an Android Device</h2>

 <p>The Android Auto SDK includes an APK with a media client implementation, which is
 similar to those available in compatible vehicles. To test your app with this
 client:</p>

 <ol>
 <li>Get an Android device with a similar form factor to a dashboard screen (like a
 Nexus 7).</li>
 <li>Configure the device for Android development.</li>
 <li>Install the APK for the media client from the Android Auto SDK on the device.</li>
 <li>Install the APK for your app on the device.</li>
 <li>Open the media client app from the Android Auto SDK on the device.</li>
 <li>Select your app from the list of available services.</li>
 </ol>

 <p>The customized UI for your app appears on the client. You can navigate the content
 library and play media. If your app provides app-specific actions, these actions appear
 in the UI controls.</p>


 <h2 id="running">Running Your App on Android Auto</h2>

 <p>Media apps are available on the Google Play Store for compatible Android devices.
 When users connect their Android device to a compatible vehicle, the
 Android Auto media client shows a list of all the Android apps installed on the phone
 that implement the media service interfaces.</p>

 <p>When users select one of these apps, the Android Auto media client uses the app’s
 service to respond to user input and invoke the methods in the media service interfaces
 to build the UI, navigate the content library, and play media.</p>

 <div style="margin-bottom:40px"> </div>
 </div>
	fullpage=true
	page.viewport_width=970
	no_footer_links=true
	excludeFromSuggestions=true
	page.metaDescription=Android Auto

	@jd:body

	<style>
	.jd-descr {
	height:auto;
	}
	#copyright {
	margin-top:-35px;
	}
	.auto-img-container {
	position:relative;
	}
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	z-index:2;
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	width:380px;
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	}
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	width:369px;
	position:absolute;
	top:7px;
	left:6px;
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	width:380px;
	display: inline;
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	.auto-img-container-single {
	width:380px;
	margin:0 auto;
	margin-top:20px;
	}
	</style>

	<div style="width:780px; margin:0 auto;">

	<div id="qv-wrapper">
	<div id="qv">
	<h2>In this document</h2>
	<ol>
	<li><a href="#design">Design</a>
	<ol>
	<li><a href="#designprinciples">Design Principles</a></li>
	<li><a href="#uioverview">UI Overview</a></li>
	</ol>
	</li>
	<li><a href="#architecture">Architecture</a></li>
	<li><a href="#ui">User Interface</a>
	<ol>
	<li><a href="#launchapp">Launch App</a></li>
	<li><a href="#useractions">User Actions</a></li>
	<li><a href="#drawertransitions">Drawer Transitions</a></li>
	<li><a href="#daynighttransitions">Day and Night Transitions</a></li>
	<li><a href="#customizeui">Customizing the UI</a></li>
	</ol>
	</li>
	<li><a href="#devprocess">Development Process</a></li>
	<li><a href="#emulator">Testing Your App</a></li>
	<li><a href="#running">Running Your App</a></li>
	</ol>
	</div>
	</div>

	<h1>Android Auto Developer Overview</h1>

	<p>Android Auto extends the Android platform into the car. When users connect
	their Android handheld device to a compatible vehicle, Android Auto provides a car-optimized
	Android experience on the vehicle's screen. Users interact with compatible apps and services
	through voice actions and the vehicle's input controls.</p>

	<p>The Android Auto SDK lets you easily extend your existing apps to work in the car, without
	having to worry about vehicle-specific hardware differences. You can use many Android APIs and
	services you are already familiar with. Android Auto provides an easy to use UI model and
	supports notifications and voice actions:</p>

	<dl>
	<dt style="margin-bottom:10px"><strong>Media UI</strong></dt>
	<dd style="margin-bottom:20px">
	Android Auto defines interaction models and car-specific UI patterns for apps. The
	first version of Android Auto supports media apps, such as music, podcast, live radio, and
	audio news apps.
	</dd>
	<dt style="margin-bottom:10px"><strong>Notifications</strong></dt>
	<dd style="margin-bottom:20px">
	The platform will integrate with existing Android APIs for notifications. Users will get
	car appropiate notifications from Android apps on the vehicle's screen.</dd>

	<dt style="margin-bottom:10px"><strong>Voice Actions</strong></dt>
	<dd style="margin-bottom:20px">
	Android Auto supports a set of voice actions to interact with compatible apps and services.
	Apps can respond to the voice actions they're interested in, such as playing a particular song
	or taking a note.</dd>

	<dt style="margin-bottom:10px"><strong>Easy Development Workflow</strong></dt>
	<dd style="margin-bottom:20px">
	To extend an existing Android app for Android Auto, you implement a set of interfaces and
	services defined in the platform. You can reuse existing functionality and many Android APIs
	you already know.</dd>
	</dl>

	<p>We’ll release the Android Auto SDK in the coming months, which will let you test your
	Android Auto experience on a regular Android device.</p>


	<h2 id="design">Design</h2>

	<p>Android Auto extends users' digital ecosystem into their cars, allowing drivers to stay
	connected to their virtual worlds while staying focused on the road ahead.</p>

	<p>Because driving is the primary activity in the car, any digital experiences should be designed
	to complement and augment that activity. They should never demand the user's attention.</p>

	<p>Designing for cars is fundamentally different than designing for phones or tablets, and
	requires rethinking how experiences unfold. Because attention is limited and not all tasks are
	possible in the car, effective apps leverage the entire set of devices that drivers have,
	leveraging the app experience on those devices, outside of the car, to set the stage for simple
	experiences while driving.</p>

	<p>Android Auto experiences are:</p>

	<p><strong>Glanceable and simple</strong>. Driving requires users' full attention. In-car software
	should not. Android Auto was designed to simplify not only the UI, but to optimize interactions
	and require less thinking, induce lower cognitive load, and ultimately, be safer. Effective apps
	provide just enough information in the minimum amount of time the user needs to glance at it and
	return their attention back to the road. Apps should also reduce the number of features to only
	those that are safe and drive-appropriate.</p>

	<p><strong>Predictive, yet predictable</strong>. Android Auto leverages rich, contextual awareness
	to keep the driver informed about important situations during the drive. Rich, timely help is
	combined with predictable functions. Effective apps make use of the patterns for common tasks and
	show timely information only when relevant.</p>

	<p><strong>Connected</strong>. By leveraging the user's personal ecosystem of apps and services,
	Android Auto promotes a continuous experience from phone to car to other devices. The user's
	music, destinations, and virtual ecosystem are always available to augment the drive. Experiences
	that leverage personal context and other devices are naturally part of Android Auto.</p>

	<p><strong>Naturally integrated</strong>. Android Auto blends the user's apps with the car,
	creating a truly integrated experience that leverages what is unique about each car. By using
	the screens, controls, and capabilities of the vehicle, Android Auto feels like an extension of
	the car.</p>




	<h2 id="architecture">Architecture</h2>

	<p>The Android Auto app shows your app's customized UI on the vehicle's screen. To communicate
	with the Android Auto app, your media app implements a set of media interfaces.</p>

	<div style="width:750px;margin:0 auto">
	<img src="{@docRoot}auto/images/figure01.png" alt="" />
	<p class="img-caption">
	<strong>Figure 1</strong> - Architecture of Android Auto.
	</p>
	</div>

	<p>The architecture consists of the following components:</p>

	<p><strong>Media App</strong> - Runs a media service that exposes content through browsing and
	playback APIs. The service provides content to the Android Auto app. This is your Android app.</p>

	<p><strong>Android Auto App</strong> - Creates the UI and handles user interactions.
	This app uses a media client to request content from the media service running in the media
	app. The client requests data from the media service and monitors service states.</p>

	<p><strong>Vehicle Display</strong> - Shows app content and supports user interaction via
	on-screen soft buttons and other components, such as physical buttons or steering
	wheel controls.</p>

	<p>Android media apps must implement binders to these APIs:</p>

	<ul>
	<li><strong>Browsing</strong> - Enables a media client to browse a hierarchy of a user’s
	media collection, presented as a virtual file system with containers (similar to directories)
	and items (similar to files).</li>
	<li><strong>Playback</strong> - Enables a media client to control media playback and monitor
	playback state through callbacks.</li>
	</ul>


	<h2 id="ui">User Interface</h2>

	<p>The Android Auto app uses a car-specific UI model to display content and user interaction
	opportunities. Android Auto provides you with a standard UI designed to minimize driver
	distraction. You do not have to test a custom UI for for driver distraction, which is a
	lengthy and expensive process involving multiple legislations across the globe and different
	standards for each vehicle OEM.</p>

	<p>The UI defines interfaces for browsing, searching, and listening to content from
	media apps. You can customize the UI colors, action icons, background images, and more.</p>

	<h3 id="launchapp">Launcher</h3>

	<p>The launcher shows all the compatible media apps installed on the user’s
	Android device and lets users select one of them from an scrollable list:</p>

	<div class="auto-img-container-single">
	<div class="auto-img-container">
	<img class="auto-img-frame-cols" src="/auto/images/assets/00_frame.png" />
	<img class="auto-img-shot-cols" src="/auto/images/assets/do_01_switcher.png" />
	</div>
	<p class="img-caption" style="margin-top:0px">
	<strong>Figure 2.</strong> The launcher.
	</p>
	</div>

	<h3>Primary App UI</h3>

	<p>After the user selects a media app, the display shows the primary app UI.
	You can customize this UI to show your own icons, app name, and
	background images. Figure 3 shows an example of a customized UI:</p>

	<div class="cols">
	<div class="auto-col-2">
	<div class="auto-img-container-cols">
	<img class="auto-img-frame-cols" src="{@docRoot}auto/images/assets/00_frame.png" />
	<img class="auto-img-shot-cols" src="{@docRoot}auto/images/assets/do_05_template.png" />
	</div>
	</div>
	<div class="auto-col-2">
	<div class="auto-img-container-cols">
	<img class="auto-img-frame-cols" src="{@docRoot}auto/images/assets/00_frame.png" />
	<img class="auto-img-shot-cols" src="{@docRoot}auto/images/assets/do_02_music.png" />
	</div>
	</div>
	</div>
	<p class="img-caption">
	<strong>Figure 3.</strong> A customized UI.
	</p>



	<h3 id="useractions">User Actions</h3>

	<p>The primary app UI supports four main actions on the action bar, four auxiliary actions
	on the overflow bar, and the <em>Return</em> action. You can use standard controls and customize
	the actions and icons, as shown in Figure 4.</p>

	<div class="auto-img-container-single">
	<div class="auto-img-container">
	<img class="auto-img-frame-cols" src="/auto/images/assets/00_frame.png" />
	<img class="auto-img-shot-cols" src="/auto/images/assets/do_03_more.png" />
	</div>
	<p class="img-caption" style="margin-top:0px">
	<strong>Figure 4.</strong> Custom extra actions.
	</p>
	</div>

	<h3 id="drawertransitions">Drawer Transitions</h3>

	<p>For browse actions, the display shows the drawer transition as shown in Figure 5.</p>

	<div class="cols">
	<div class="auto-col-2">
	<div class="auto-img-container-cols">
	<img class="auto-img-frame-cols" src="{@docRoot}auto/images/assets/00_frame.png" />
	<img class="auto-img-shot-cols" src="{@docRoot}auto/images/assets/do_06_gdrawer.png" />
	</div>
	</div>
	<div class="auto-col-2">
	<div class="auto-img-container-cols">
	<img class="auto-img-frame-cols" src="{@docRoot}auto/images/assets/00_frame.png" />
	<img class="auto-img-shot-cols" src="{@docRoot}auto/images/assets/do_04_mdrawer.png" />
	</div>
	</div>
	</div>
	<p class="img-caption">
	<strong>Figure 5.</strong> Generic and customized drawers.
	</p>

	<p>After the transition from the primary app UI to the drawer UI, the drawer
	appears on the center. The customized drawer UI shows the media containers and
	media files provided by the media service in your app. You can also customize drawers
	with icons for list items.</p>


	<h3 id="daynighttransitions">Day and Night Transitions</h3>

	<p>All the UIs support different color schemes for day and night.
	The platform provides the state (day or night) and makes adjustments automatically.</p>

	<div class="cols">
	<div class="auto-col-2">
	<div class="auto-img-container-cols">
	<img class="auto-img-frame-cols" src="{@docRoot}auto/images/assets/00_frame.png" />
	<img class="auto-img-shot-cols" src="{@docRoot}auto/images/assets/do_02_music.png" />
	</div>
	</div>
	<div class="auto-col-2">
	<div class="auto-img-container-cols">
	<img class="auto-img-frame-cols" src="{@docRoot}auto/images/assets/00_frame.png" />
	<img class="auto-img-shot-cols" src="{@docRoot}auto/images/assets/do_02_music_night.png" />
	</div>
	</div>
	</div>
	<p class="img-caption">
	<strong>Figure 6.</strong> Day and night modes.
	</p>

	<h3 id="customizeui">Customizing UIs</h3>

	<p>To customize the UI, you provide the following app-specific resources and actions
	to the Android Auto media client:</p>

	<ul>
	<li><strong>Resources</strong> - App logo, app name, theme colors, and background images.</li>
	<li><strong>Actions</strong> - Multiple custom actions; for example: <em>Thumbs Up/Down</em>,
	<em>Favorite</em>, and <em>Bookmark</em>. These actions are app-specific.</li>
	</ul>

	<p>If provided, the media client automatically uses them in the UI.</p>


	<h2 id="devprocess">Development Process</h2>

	<p class="note"><strong>Note:</strong> When released, the Android Auto SDK will provide
	media service interfaces, an APK for handheld devices that simulates the Android Auto
	app, and other tools for Android Auto development.</p>

	<p>To create a media app for Android Auto, you include an Android service in your app
	that implements the media service interfaces provided by the Android Auto SDK. These
	interfaces define functionality for browsing and finding content, playing media,
	customizing the UI, and performing app-specific actions.</p>

	<p>The media service interfaces present the content library as a navigable tree and enable
	clients to play media, get album art, obtain theme resources for the UI, and
	invoke app-specific actions.</p>

	<p>You don’t have to create a new app for Android Auto: you can extend your existing
	Android app with implementations of the media service interfaces. Your service exposes
	your app’s media content, theme resources, and app-specific actions using the methods and
	data types specified by the media service interfaces. This simplifies the development
	cycle because:</p>

	<ul>
	<li>You do not have to maintain a separate project for Android Auto</li>
	<li>You can reuse existing functionality from your Android app</li>
	</ul>

	<p>The Android Auto client presents the customized UI to users and invokes the
	functionality from your service as needed. This has two additional advantages:</p>

	<ul>
	<li>Your app does not implement a UI for Android Auto</li>
	<li>Your app does not manage user interactions directly</li>
	</ul>

	<p>This also means that you do not have to worry about vehicle-specific hardware
	differences such as screen resolutions, software interfaces, knobs and touch
	controls.</p>


	<h2 id="emulator">Testing Your App on an Android Device</h2>

	<p>The Android Auto SDK includes an APK with a media client implementation, which is
	similar to those available in compatible vehicles. To test your app with this
	client:</p>

	<ol>
	<li>Get an Android device with a similar form factor to a dashboard screen (like a
	Nexus 7).</li>
	<li>Configure the device for Android development.</li>
	<li>Install the APK for the media client from the Android Auto SDK on the device.</li>
	<li>Install the APK for your app on the device.</li>
	<li>Open the media client app from the Android Auto SDK on the device.</li>
	<li>Select your app from the list of available services.</li>
	</ol>

	<p>The customized UI for your app appears on the client. You can navigate the content
	library and play media. If your app provides app-specific actions, these actions appear
	in the UI controls.</p>


	<h2 id="running">Running Your App on Android Auto</h2>

	<p>Media apps are available on the Google Play Store for compatible Android devices.
	When users connect their Android device to a compatible vehicle, the
	Android Auto media client shows a list of all the Android apps installed on the phone
	that implement the media service interfaces.</p>

	<p>When users select one of these apps, the Android Auto media client uses the app’s
	service to respond to user input and invoke the methods in the media service interfaces
	to build the UI, navigate the content library, and play media.</p>

	<div style="margin-bottom:40px"> </div>
	</div>