DCR KSA Video Android SDK

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Engineering Portal breadcrumbArrow.png Digital breadcrumbArrow.png International DCR breadcrumbArrow.png DCR KSA Video Android SDK

Contents

Overview

The Nielsen SDK is one of the multiple framework SDKs that Nielsen provides to enable measuring linear (live) and on-demand TV viewing using TVs, mobile devices, etc. The App SDK is the framework for mobile application developers to integrate Nielsen Measurement into their media player applications. It supports a variety of Nielsen Measurement Products like It supports a variety of Nielsen Measurement Products like Digital in TV Ratings (DTVR), Digital Content Ratings (DCR), and Digital Ad Ratings (DAR). Nielsen SDKs are also equipped to measure static content and can track key life cycle events of an application like:

  • Application launch events and how long app was running
  • Time of viewing a subsection/page in the application.


This SDK Android integration guide is applicable for Android TV as well.

Prerequisites

Before you start the integration, you will need:

Item Description Source
"App ID (appid)" Unique ID assigned to the player/site and configured by product. Contact Nielsen
"Nielsen SDK" Includes SDK frameworks and "sample implementation"; "See Android SDK Release Notes" Download


How to obtain the NielsenAppApi

The Nielsen AppSDK can either be downloaded directly or can be integrated directly within an application through the use of Gradle. We recommend using the Gradle-based integration whenever possible to ensure you maintain the most recent changes and enhancements to the Nielsen libraries.

Setting up your Development Environment

Configuring Android Development Environment

  • The Nielsen App SDK (located in the Downloads section of the website) class is the primary application interface to the Nielsen App SDK on Android.
  • The Nielsen App SDK class is defined as the only public class belonging to the com.nielsen.app.sdk package.
  • The Nielsen App SDK can also be added via Artifact Repository.

Nielsen App SDK is compatible with Android OS versions 2.3+. Clients can control / configure the protocol to be used – HTTPS or HTTP to suit their needs.

The requirement for the Java AppSdk.jar library and the libAppSdk.so native library will depend on the type of host application that will make use of them.

  • For Video player applications
    • The Android OS hosting the App SDK should use a media player supporting HLS streaming (Android 3.0 and later will support it natively).
    • If the player application uses a 3rd party media player implementing its own HLS, then the minimum Android version will be limited to version 2.3, since the SDK depends on Google Play support to work properly.

Once SDK is downloaded ensure to unzip the Nielsen SDK and copy the AppSdk.jar in your app (Android Studio) libs folder, then right click the AppSdk.jar and select Add As Library. Ensure the AppSdk.jar file is added in 'build.grade (App Level) file.

  • App SDK 1.2 provides support for x86, mips, and armeabi-7a architecture.

Google Play Services

Add the Google Play Services in the project, Steps: Android Studio -> File -> Project Structure ->(In module selection) select App -> Dependencies (tab) -> Click "+" button and search for "*play-services*". Then select the most recent version of the play-services Artifact. Ensure it is added in build.gradle (App level) file

The following is required if target API level is set to 31 (Android 12) with the Ad Version of the Nielsen SDK.

<uses-permission android:name="com.google.android.gms.permission.AD_ID"/>


Manifest File

  • Add the following permissions on the project’s AndroidManifest.xml file.
<uses-permission android:name="android.permission.ACCESS_NETWORK_STATE"/>
<uses-permission android:name="android.permission.INTERNET"/>

For more details to handle runtime permissions in Android versions, please visit [1].

  • In AndroidManifest.xml under <application> add the following metadata
<meta-data 
android:name="com.google.android.gms.version" 
android:value="@integer/google_play_services_version"/>
  • App SDK checks to see if there is a Google service available and updated.
  • If not available or updated, App SDK will not use this service when executing its functions and will make reference to missing imports and the app will not be compiled.

Library

Nielsen App SDK uses the following packages/classes from the Google Play service.

  • google-play-services_lib

Classes/package

  • com.google.android.gms.ads.identifier.AdvertisingIdClient;
  • com.google.android.gms.ads.identifier.AdvertisingIdClient.Info;
  • com.google.android.gms.common.ConnectionResult;
  • com.google.android.gms.common.GooglePlayServicesUtil;
  • com.google.android.gms.common.GooglePlayServicesRepairableException;
  • com.google.android.gms.common.GooglePlayServicesNotAvailableException;

Create SDK Instance

The latest version of the Nielsen App SDK allows instantiating multiple instances of the SDK object when needed, which can then be used simultaneously. For the general use case where only one video is played at the same time in the App, a single instance of SDK object can then be used to play back and measure all watched streams one after another.

The following table contains the list of arguments that can be passed via the AppInfo JSON schema.

Parameter / Argument Description Source Required/Obligatory? Example
appid Unique id for the application assigned by Nielsen. It is GUID data type. Nielsen-specified Yes "PXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX"
appname Name of the application Client-defined Yes "Nielsen Sample App"
appversion Current version of the app used Client-defined Yes "1.0.2"
sfcode Nielsen collection facility to which the SDK should connect. Nielsen-specified Yes "ksa"
nol_devDebug Enables Nielsen console logging. Only required for testing Nielsen-specified Optional "DEBUG"


1) AppSDK() is no longer a singleton object and should be created as below.

try{
  // Prepare AppSdk configuration object (JSONObject)
  JSONObject appSdkConfig = new JSONObject()
          .put("appid", "PXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX")
          .put("appversion", "1.0.2")
          .put("appname", "Nielsen Sample App")
          .put("sfcode", "ksa")
          .put("nol_devDebug", "DEBUG"); // only for debug builds 

         // Pass appSdkConfig to the AppSdk constructor
         mAppSdk = new AppSdk(appContext, appSdkConfig, this);
}
catch (JSONException e){
         Log.e(TAG, "Couldn’t prepare JSONObject for appSdkConfig", e);
}

2) implement IAppNotifier into your activity like

public class MainActivity extends AppCompatActivity implements IAppNotifier

3) implement callback

@Override
public void onAppSdkEvent(long timestamp, int code, String description){
  Log.d(TAG, "SDK callback onAppSdkEvent " + description);
}

So whole Activity will look like

import android.content.Context;
import android.support.v7.app.AppCompatActivity;
import android.os.Bundle;
import android.util.Log;

import com.nielsen.app.sdk.*;

import org.json.JSONException;
import org.json.JSONObject;

public class MainActivity extends AppCompatActivity implements IAppNotifier {

    private AppSdk mAppSdk = null;
    private String TAG = "MainActivity";

    @Override
    protected void onCreate(Bundle savedInstanceState) {
        super.onCreate(savedInstanceState);
        setContentView(R.layout.activity_main);

        Context context = getApplicationContext();

        try{
            // Prepare AppSdk configuration object (JSONObject)
            JSONObject appSdkConfig = new JSONObject()
                    .put("appid", "PXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX")
                    .put("appversion", "1.0.2")
                    .put("appname", "Nielsen Sample App")
                    .put("sfcode", "ksa")
                    .put("nol_devDebug", "DEBUG"); // only for debug builds

            // Pass appSdkConfig to the AppSdk constructor
            mAppSdk = new AppSdk(context, appSdkConfig, this ); // Notifier - activity implements IAppNotifier, callback in onAppSdkEvent()

        }
        catch (JSONException e){
            Log.e(TAG, "Couldn’t prepare JSONObject for appSdkConfig", e);
        }

    }

    @Override
    public void onAppSdkEvent(long timestamp, int code, String description) {
        Log.d(TAG, "SDK callback onAppSdkEvent " + description);
    }

}

APP SDK Error & Event Codes

To view the Error and Event codes for iOS and Android, please review the App SDK Event Code Reference page.

Life cycle of SDK instance

Life cycle of SDK instance includes four general states:

  1. Initial state – The SDK is not initialized and hence, not ready to process playing information. Once the SDK is moved out of this state, it needs instantiation of the new SDK instance in order to get the instance in the ""Initial state"".
  2. Idle state– The SDK is initialized and is ready to process playing information. Once Initialized, the SDK instance is not processing any data, but is listening for the play event to occur.
  3. Processing state – The SDK instance is processing playing information. API calls "play" and "loadMetadata" move the SDK instance into this state. In this state, the SDK instance will be able to process the API calls (see below)
  4. Disabled state – The SDK instance is disabled and is not processing playing information. SDK instance moves into this state in one of the following scenarios.
    1. Initialization fails
    2. appDisableApi is called
@property (assign) BOOL appDisableApi;

Create Metadata Objects

The parameters passed must be either a JSON formatted string. The JSON passed in the SDK must be well-formed.

  • JSON value must be string value.
    • This includes boolean and numeric values. For example, a value of true should be represented with "true", number value 123 should be "123".
    • All the Variable Names like appid, appname, dataSrc, title, type etc. are case-sensitive. Use the correct variable name as specified in the documentation.
  • JSON string can be prepared using either raw NSString or serialized NSDictionary.


Create channelName Metadata

channelName should remain constant throughout the completion of an episode or live stream.

Key Description Values Required
channelName Any string representing the channel/stream custom Yes

Create Content Metadata

Content metadata should remain constant throughout the entirety of an episode/clip including when ads play.

Keys Description Values Required
type type of asset 'content' Yes
assetid unique ID assigned to asset (32 Character limit) custom (no Special Characters) Yes
program name of program (100 character limit) custom Yes
title name of program (100 character limit) custom Yes
length length of content in seconds Length of content in seconds (86400 seconds for live stream (24/7). For Event-Live streams planned length. For VoD video length) Yes
airdate the airdate in the linear TV YYYYMMDD HH24:MI:SS Yes
isfullepisode full episode flag 'y'- full episode, 'n'- non full episode Yes
adloadtype type of ad load:
  • '1' Linear – matches TV ad load
  • '2' Dynamic – Dynamic Ad Insertion (DAI)
'2' - DCR measures content with dynamic ads Yes

Create Ad Metadata

The Ad Metadata (if applicable) should be passed for each individual ad.

Keys Description Values Required
type type of Ad 'preroll', 'midroll', 'postroll' Yes
assetid unique ID assigned to Ad custom (no Special Characters) Yes

Note: All metadata values should be passed as UTF-8 strings.

URL Character Limit: There is a URL character limit of 2K characters due to browser limitations. Exceeding this value could impair data delivery on particular browsers.

MetaData Example

JSONObject channelInfo = new JSONObject()
    .put("channelName","My Channel Name 1")

JSONObject contentMetadata = new JSONObject()
    .put("type", "content")
    .put("assetid", "vid345-67483")
    .put("program", "Program Name")
    .put("title", "Program S3, EP1")
    .put("length", "3600")
    .put("isfullepisode", "y")
    .put("adloadtype", "2")
    .put("airdate", "20161013 20:00:00")

JSONObject adMetadata = new JSONObject()
    .put("type", "postroll")
    .put("assetid", "AD-ID123");

Start the Measurement

Overview of SDK API Calls

play

The play method prepares the SDK for reporting once an asset has loaded and playback has begun. Use play to pass the channel descriptor information through channelName parameter when the user taps the ""Play"" button on the player. Call play only when initially starting the video.

mAppSdk.play(JSONObject channelInfo);

loadMetadata

Needs to be called at the beginning of each asset, pass JSON object for relevant content or ad. Make sure to pass as 1st loadMetadata for content at the begining of playlist - see below API call sequence examples.

mAppSdk.loadMetadata(JSONObject contentMetadata);

playheadPosition

Pass playhead position every second during playback. for VOD: pass current position in seconds. for Live: current Unix timestamp (seconds since Jan-1-1970 UTC) - if it is possible to seek back in Live content, then pass related Unix time (not current). Pass whole number that increments only by 1 like 1,2,3..

mAppSdk.setPlayheadPosition(long videoPositon);

stop

Call when

  • ads complete playing
  • when a user pauses playback
  • upon any user interruption scenario - see bellow chapter Interruption scenario
mAppSdk.stop();

end

Call when the content asset completes playback. Stops measurement progress.

mAppSdk.end();



API Call Sequence

Use Case 1: Content has no Ads

Call play() at start of stream

Call loadMetadata() with JSON metadata for content as below.

{
  "type": "content",
  "assetid": "vid345-67483",
  "program": "ProgramName",
  "title": "Program S3, EP1",
  "length": "3600",
  ...
}

Call setPlayheadPosition() every one second until a pause. Use the sample API sequence below as a reference to identify the specific events that need to be called during content playback without ads.

Type Sample code Description
Start of stream mAppSdk.play(); // Call at start of each new stream
mAppSdk.loadMetadata(contentMetaDataObject); // contentMetadataObject contains the JSON metadata for the content being played
Content mAppSdk.setPlayheadPosition(playheadPosition); // position is position of the playhead while the content is being played
Interruption mAppSdk.stop(); // call stop when content playback is interrupted
Resume Content mAppSdk.setPlayheadPosition(playheadPosition); // continue pasing playhead position every second starting from position where content is resumed
End of Stream mAppSdk.end(); // Content playback is completed.

Use Case 2: Content has Ads

Call play() with channelName JSON as below.

{
   "channelName": "My Channel Name 1"
}


Call loadMetadata() with JSON metadata for ad as below.

{
   "type": "preroll",
   "assetid": "ad-123"
   ...
}


Note: In case the individual ad details are not available, send ad pod (presence) details through the loadMetadata and playhead position through playheadPosition.

Call setPlayheadPosition() every one second until a pause / another loadMetadata() is called. Playhead should be passed for the entire duration of ad pod, if the ad pod details are passed as part of loadMetadata().

The sample API sequence can be used as a reference to identify the specific events that need to be called during content and ad playback.

Type Sample code Description
Start of stream mAppSdk.play(channelInfo); // channelName contains JSON metadata of channel name being played
mAppSdk.loadMetadata(contentMetaDataObject); // contentMetadataObject contains the JSON metadata for the content being played
Preroll mAppSdk.loadMetadata(prerollMetadataObject); // prerollMetadataObject contains the JSON metadata for the preroll ad
mAppSdk.setPlayheadPosition(playheadPosition); // position is position of the playhead while the preroll ad is being played
mAppSdk.stop(); // Call stop after preroll occurs
Content mAppSdk.loadMetadata(contentMetaDataObject); // contentMetadataObject contains the JSON metadata for the content being played
mAppSdk.setPlayheadPosition(playheadPosition); // position is position of the playhead while the content is being played
Midroll mAppSdk.loadMetadata(midrollMetaDataObject); // midrollMetadataObject contains the JSON metadata for the midroll ad
mAppSdk.setPlayheadPosition(playheadPosition); // position is position of the playhead while the midroll ad is being played
mAppSdk.stop(); // App moves to background(midroll pauses)
mAppSdk.loadMetadata(midrollMetaDataObject); // App moves to foreground (midroll resumes)
mAppSdk.setPlayheadPosition(playheadPosition); // playheadPosition is position of the playhead while the midroll ad is being played
mAppSdk.stop(); // Call stop after midroll occurs
Content (End of stream) mAppSdk.loadMetadata(contentMetaDataObject); // contentMetadataObject contains the JSON metadata for the content being played
mAppSdk.setPlayheadPosition(playheadPosition); // position is position of the playhead while the content is being played
End of Stream mAppSdk.end(); // Call end() at the end of content
Postroll mAppSdk.loadMetadata(postrollMetaDataObject); // postrollMetadataObject contains the JSON metadata for the postroll ad
mAppSdk.setPlayheadPosition(playheadPosition); // position is position of the playhead while the postroll ad is being played
mAppSdk.stop(); // Call stop after postroll occurs

Note: Each Ad playhead should reset or begin from 0 at ad start. When content has resumed following an ad break, playhead position must continue from where previous content segment was left off.

Handling Foreground and Background states

There are a few approaches to managing the Foreground and Background states of an app available to use for state measurement.

  • Utilizing the Androidx LifeCycleObserver (The recommended approach starting sdk version 7.1.0.0+)
  • Utilizing the SdkBgFgDetectionUtility class
  • Adding a tag to the Manifest XML
  • Manual Management

The LifeCycleObserver

AndroidX replaces the original support library APIs with packages in the androidx namespace, and Android Studio 3.2 and higher provides an automated migration tool. (Select Refactor> Migrate to AndroidX from the menu bar.)

Starting with version 7.1.0, with AndroidX support, an additional utility is provided in the AppSDK - application background/foreground state detection by the AppSdk leveraging the Android Architecture component "LifeCycleObserver".

The AppSdk is now capable of detecting the application UI visibility state transitions between background and foreground, without forcing the applications to register for AppSdk's AppSdkApplication class, which is responsible for handling the detection of application background/foreground state transitions at present.

Please note, that if you already have an app designed that utilizes the depreciated SdkBgFgDetectionUtility Class, the AppSDK will ignore any calls to these methods if it can utilize the LifeCycleObserver. LifeCycleObserver based auto detection will take precedence.

Adding the AndroidX dependency

In order to make use of the app background/foreground state transition auto detection feature of AndroidX AppSdk, the app gradle file needs the androidx dependency. The AppSdk API calls - appInForeground() and appInBackground() will still be respected by AppSdk by executing the old AppSdk flow of handling "app in foreground" and "app in background" states as is.

Using the LifeCycle Extension

The following androidx dependency is required in the app gradle file:

implementation "androidx.lifecycle:lifecycle-extensions:2.1.0"

If you would like to take advantage of this auto detection feature of AppSdk at the very initial stage (e.g. splash screen or at of app launch time), before the AppSdk is initialized, can do so by calling the following newly introduced AppSdk public api, passing the application context :

public static void registerLifeCycleObserver(Context applicationContext)

Log messages for the new auto detection

  • When the AppSdk app successfully registers for the LifeCycleObserver : Registered LifeCycleObserver for App Background/Foreground auto-detection
  • When the app enters the foreground state :App is in foreground, auto detected by AppSDK
  • When the app enters the background state :App is in background, auto detected by AppSDK
  • If the client app doesn't have the "androidx" gradle dependency and AppSdk fails to register LifeCycleObserver :AndroidX LifecycleObserver can not be observed. Please use androidx dependency to activate SDK auto-detection of app background/foreground state.
  • When the appInForeground() is explicitly called while LifeCycleObserver auto detection is active :Ignoring the appInBackground() call, as the App Background/Foreground auto-detection is active. The current state is - foreground
  • When the appInBackground() is explicitly called while LifeCycleObserver auto detection is active :Ignoring the appInBackground() call, as the App Background/Foreground auto-detection is active. The current state is - background

The SdkBgFgDetectionUtility class

Foreground/Background state measurement is a requirement of Nielsen AppSDK implementation which is especially crucial for static measurement. It may be implemented in multiple ways for Android. This includes

  • Enable the Nielsen SDK to measure background/foreground state by makingthe relevant update to the AndroidManifest.
  • Integrate Nielsen’s SdkBgFgDetectionUtility class within your Custom Application Class.
  • Custom implementation of the required methods within your application.

ForeGround/Background Measurement via AndroidManifest

The simplest way to measure the app background/foreground state is to add the following application tag to the Manifest XML. Integrating this into the Manifest XML will enable the SDK to measure app state directly. This approach is supported for Android 4.0 and up only; it requires that the application class is not in use for some other purpose.

 <application android:name="com.nielsen.app.sdk.AppSdkApplication">

Using the Android SdkBgFbDetectionUtility Class

For developers who are already using the application class, it is recommended that background/foreground state is implemented using the SdkBgFgDetectionUtility class. The SdkBgFgDetectionUtility class. is compatible with Android 4+ and has been made available to Nielsen clients. (You will need to copy/paste the code provided into a file).

Manual Background/ForeGround State Management

In cases where the developer is not able to use the AndroidManifest.xml solution nor the Nielsen provided SdkBgFgDetectionUtility class. the developer will need to manually identify the change of state through the application and call the respective API (appInForeground() or appInBackground()) to inform the SDK regarding the change of state from background to foreground or foreground to background.

The SDK is informed about app state using the below methods.

AppLaunchMeasurementManager.appInForeground(getApplicationContext());
AppLaunchMeasurementManager.appInBackground(getApplicationContext());

Within the lifecycle of individual activities, onResume() and onPause() are best suited to providing indication of the app state.


Correct measurement of the foreground/background state is crucial to Static App measurement within Nielsen Digital Content Ratings (DCR).


Stop/Resume the Measurement for video Playback Interruptions

As part of integrating Nielsen App SDK with the player application, the Audio / Video app developer needs to handle the following possible interruption scenarios:

  • Pause / Play
  • Network Loss (Wi-Fi / Airplane / Cellular)
  • Call Interrupt (SIM or Third party Skype / Hangout call)
  • Alarm Interrupt
  • Content Buffering
  • Device Lock / Unlock (Video players only, not for Audio players)
  • App going in the Background/Foreground (Video players only, not for Audio players)
  • Channel / Station Change Scenario
  • Unplugging of headphone

In case of encountering one of the above interruptions, the player application needs to

  • Call stop immediately (except when content is buffering) and withhold sending playhead position.
  • Once the playback resumes, start sending pings playheadPosition for the new viewing session.

Please see the Digital Measurement FAQ for more details

Review SDK Integration Architecture Diagram

For Content Playback

SDK Integration Architecture Diagram - Content

For Ad Playback

SDK Integration Architecture Diagram - Ad

Disclose Nielsen Privacy Statement

The App SDK uses Mobile Ad IDs (Android ID or IDFA) which are fully hashed on the device before being sent to Nielsen (Nielsen never receives un-hashed values). Users retain the possibility to oppose the use of Mobile Ad IDs, or to reset them, by using the functionality provided by the mobile operating system (iOS or Android).

In order to disclose Nielsen measurement privacy statement, please include the following items in your privacy policy:

Optional Step for DCR Chromecast Android SDK

For the implementation of Chromecast SDK architecture. Please refer to this guide: DCR Chromecast Android SDK

Test your player by yourself

Guide

1. Connect your PC and test device (tablet or phone) via same router.
2. PC side: run Proxy sw (like Charles) and get local IP
3. Test device: modify Wifi setting to pass through Proxy IP from step 2.
4. Test device: run your player, launch video
5. PC side: filter traffic by "nmrodam" and confirm presence of SDK pings

Example of SDK ping (https call)

https://secure-ksa.nmrodam.com/cgi-bin/gn?prd=dcr&ci=se-910684&ch=se-910684_c01_P&asn=defChnAsset&fp_id=096ohdsc0jqkmct81qpxhmn19qx041630053963&fp_cr_tm=1630053963&fp_acc_tm=1630053963&fp_emm_tm=1630053963&ve_id=afc5d61a88b62672&sessionId=zc6gh3uhka7d2mtobb2b2m7sixygy1630053963&tl=Djuren%20p%C3%A5%20Djuris&prv=1&c6=vc,c01&ca=se-910684_c01_218531&cg=Hemligheter&c13=asid,T1194003B-797F-4896-A5C0-05914236146E&c32=segA,NA&c33=segB,NA&c34=segC,NA&c15=apn,&plugv=4.4.1&playerv=ExoPlayer&sup=1&segment2=&segment1=&forward=0&ad=1&cr=4_00_99_D1_10000&c9=devid,c041ec5e50722cdf8cc5b4826c24ae54c5747a6570e900006c826b37ca01ce17&enc=true&c1=nuid,c041ec5e50722cdf8cc5b4826c24ae54c5747a6570e900006c826b37ca01ce17&at=timer&rt=video&c16=sdkv,aa.8.1.0&c27=cln,34&crs=0&lat=&lon=&c29=plid,16300539624283525&c30=bldv,aa.8.1.0.0_gaxnons&st=dcr&c7=osgrp,&c8=devgrp,&c10=plt,&c40=adbid,&c14=osver,ANDROID.11&c26=dmap,1&dd=&hrd=&wkd=&c35=adrsid,&c36=cref1,&c37=cref2,&c11=agg,1&c12=apv,4.4.1.4004001&c51=adl,0&c52=noad,0&sd=578&pc=NA&c53=fef,n&c54=oad,&c55=cref3,&c57=adldf,2&ai=218531&c3=st,c&c64=starttm,1630053962&adid=218531&c58=isLive,false&c59=sesid,257f8bz854wmqa31gk3icyi7cmj131630053964&c61=createtm,1630053997&c63=pipMode,&ci_userid=&is_auto_play=no&pl_title=&is_prem=no&is_prog=&ad_origin=&adidx=&is_tpad=&ci_passthr=&c62=sendTime,1630053997&c68=bndlid,air.se.urplay.android_player.debug&nodeTM=&logTM=&c73=phtype,&c74=dvcnm,&c76=adbsnid,&c77=adsuprt,2&uoo=&evdata=PL%3A1630053964727%3A0&c71=ottflg,0&c72=otttyp,&c44=progen,&davty=1&si=&c66=mediaurl,&sdd=retry,0~~retryreason,~~devmodel,SM-G981B~~devtypid,samsung-SM-G981B~~sysname,Android~~sysversion,11~~manuf,samsung&cat_id=3398d8e4-e613-42c1-92aa-1a6fc52dcf5c&vtoff=0&rnd=1630053997971

Step 9 : Provide your app for certification

Once ready please send your application to Nielsen local staff for certification.

Step 10 : Going Live

After the integration has been certified by Nielsen (but not prior to that), do the following:

  1. Disable Debug Logging: Disable logging by deleting {nol_sdkDebug: 'DEBUG'} from initialization call.
  2. Notify Nielsen: Once you are ready to go live, let us know so we can enable you for reporting. We will not be able to collect or report data prior to receiving notification from you.