• android 三种定位方式


    http://www.cnblogs.com/oudi/archive/2012/03/22/2411509.html

    最近在看android关于定位的方式,查了很多资料,也做了相关实验,在手机上做了测试,下面总结:

    一共有三种定位方式,一种是GPS,一种是通过网络的方式,一种则是在基于基站的方式,但是,不管哪种方式,都需要开启网络或者GPS

    首先添加权限

        <uses-permission android:name="android.permission.ACCESS_COARSE_LOCATION"/>
    <uses-permission android:name="android.permission.ACCESS_FINE_LOCATION"/>

    在COARSE_LOCATION是用于基站定位的时候用的,没有这个权限,在获取getCellLocation的时候报错。

    第一种方式通过JASON来实现,是通过基站方式的,引用文章地址:http://www.cnblogs.com/dartagnan/archive/2011/3/9.html,下载只是实现定位的代码

    复制代码
    /** 
    * Google定位的实现.<br/>
    * Geolocation的详细信息请参见:<br/>
    * <a
    * href="http://code.google.com/apis/gears/geolocation_network_protocol.html" mce_href="http://code.google.com/apis/gears/geolocation_network_protocol.html">
    * http://code.google.com/apis/gears/geolocation_network_protocol.html</a>
    */
    public class LocationAct extends Activity {
    private TextView txtInfo;
    public void onCreate(Bundle savedInstanceState) {
    super.onCreate(savedInstanceState);
    setContentView(R.layout.main);
    Button btn = (Button) findViewById(R.id.btnStart);
    txtInfo = (TextView) findViewById(R.id.txtInfo);
    btn.setOnClickListener(new Button.OnClickListener() {
    public void onClick(View view) {
    getLocation();
    }
    });
    }
    private void getLocation() {
    TelephonyManager tm = (TelephonyManager) getSystemService(Context.TELEPHONY_SERVICE);
    GsmCellLocation gsmCell = (GsmCellLocation) tm.getCellLocation();
    int cid = gsmCell.getCid();
    int lac = gsmCell.getLac();
    String netOperator = tm.getNetworkOperator();
    int mcc = Integer.valueOf(netOperator.substring(0, 3));
    int mnc = Integer.valueOf(netOperator.substring(3, 5));
    JSONObject holder = new JSONObject();
    JSONArray array = new JSONArray();
    JSONObject data = new JSONObject();
    try {
    holder.put("version", "1.1.0");
    holder.put("host", "maps.google.com");
    holder.put("address_language", "zh_CN");
    holder.put("request_address", true);
    holder.put("radio_type", "gsm");
    holder.put("carrier", "HTC");
    data.put("cell_id", cid);
    data.put("location_area_code", lac);
    data.put("mobile_countyr_code", mcc);
    data.put("mobile_network_code", mnc);
    array.put(data);
    holder.put("cell_towers", array);
    } catch (JSONException e) {
    e.printStackTrace();
    }
    DefaultHttpClient client = new DefaultHttpClient();
    HttpPost httpPost = new HttpPost("http://www.google.com/loc/json");
    StringEntity stringEntity = null;
    try {
    stringEntity = new StringEntity(holder.toString());
    } catch (UnsupportedEncodingException e) {
    e.printStackTrace();
    }
    httpPost.setEntity(stringEntity);
    HttpResponse httpResponse = null;
    try {
    httpResponse = client.execute(httpPost);
    } catch (ClientProtocolException e) {
    e.printStackTrace();
    } catch (IOException e) {
    e.printStackTrace();
    }
    HttpEntity httpEntity = httpResponse.getEntity();
    InputStream is = null;
    try {
    is = httpEntity.getContent();
    } catch (IllegalStateException e) {
    e.printStackTrace();
    } catch (IOException e) {
    // TODO Auto-generated catch block
    e.printStackTrace();
    }
    InputStreamReader isr = new InputStreamReader(is);
    BufferedReader reader = new BufferedReader(isr);
    StringBuffer stringBuffer = new StringBuffer();
    try {
    String result = "";
    while ((result = reader.readLine()) != null) {
    stringBuffer.append(result);
    }
    } catch (IOException e) {
    e.printStackTrace();
    }
    txtInfo.setText(stringBuffer.toString());
    }
    }
    复制代码

    第二种通过严格的GPS来定位,引用文章地址:http://www.cnblogs.com/wisekingokok/archive/2011/09/06/2168479.html,这里只引用代码

    复制代码
    public class MainActivity extends Activity {
    private LocationManager locationManager;
    private GpsStatus gpsstatus;
    @Override
    public void onCreate(Bundle savedInstanceState) {
    super.onCreate(savedInstanceState);
    setContentView(R.layout.main);

    //获取到LocationManager对象
    locationManager = (LocationManager) getSystemService(LOCATION_SERVICE);

    //根据设置的Criteria对象,获取最符合此标准的provider对象
    String currentProvider = locationManager.getProvider(LocationManager.GPS_PROVIDER).getName();

    //根据当前provider对象获取最后一次位置信息
    Location currentLocation = locationManager.getLastKnownLocation(currentProvider);
    //如果位置信息为null,则请求更新位置信息
    if(currentLocation == null){
    locationManager.requestLocationUpdates(currentProvider, 0, 0, locationListener);
    }
    //增加GPS状态监听器
    locationManager.addGpsStatusListener(gpsListener);

    //直到获得最后一次位置信息为止,如果未获得最后一次位置信息,则显示默认经纬度
    //每隔10秒获取一次位置信息
    while(true){
    currentLocation = locationManager.getLastKnownLocation(currentProvider);
    if(currentLocation != null){
    Log.d("Location", "Latitude: " + currentLocation.getLatitude());
    Log.d("Location", "location: " + currentLocation.getLongitude());
    break;
    }else{
    Log.d("Location", "Latitude: " + 0);
    Log.d("Location", "location: " + 0);
    }
    try {
    Thread.sleep(10000);
    } catch (InterruptedException e) {
    Log.e("Location", e.getMessage());
    }
    }
    }

    private GpsStatus.Listener gpsListener = new GpsStatus.Listener(){
    //GPS状态发生变化时触发
    @Override
    public void onGpsStatusChanged(int event) {
    //获取当前状态
    gpsstatus=locationManager.getGpsStatus(null);
    switch(event){
    //第一次定位时的事件
    case GpsStatus.GPS_EVENT_FIRST_FIX:
    break;
    //开始定位的事件
    case GpsStatus.GPS_EVENT_STARTED:
    break;
    //发送GPS卫星状态事件
    case GpsStatus.GPS_EVENT_SATELLITE_STATUS:
    Toast.makeText(MainActivity.this, "GPS_EVENT_SATELLITE_STATUS", Toast.LENGTH_SHORT).show();
    Iterable<GpsSatellite> allSatellites = gpsstatus.getSatellites();
    Iterator<GpsSatellite> it=allSatellites.iterator();
    int count = 0;
    while(it.hasNext())
    {
    count++;
    }
    Toast.makeText(MainActivity.this, "Satellite Count:" + count, Toast.LENGTH_SHORT).show();
    break;
    //停止定位事件
    case GpsStatus.GPS_EVENT_STOPPED:
    Log.d("Location", "GPS_EVENT_STOPPED");
    break;
    }
    }
    };


    //创建位置监听器
    private LocationListener locationListener = new LocationListener(){
    //位置发生改变时调用
    @Override
    public void onLocationChanged(Location location) {
    Log.d("Location", "onLocationChanged");
    }

    //provider失效时调用
    @Override
    public void onProviderDisabled(String provider) {
    Log.d("Location", "onProviderDisabled");
    }

    //provider启用时调用
    @Override
    public void onProviderEnabled(String provider) {
    Log.d("Location", "onProviderEnabled");
    }

    //状态改变时调用
    @Override
    public void onStatusChanged(String provider, int status, Bundle extras) {
    Log.d("Location", "onStatusChanged");
    }
    };
    }
    复制代码

    第三种主要是通过网络的方式来定位,引用文章地址:http://www.cnblogs.com/wisekingokok/archive/2011/09/05/2167755.html,这里只写代码

    复制代码
    package com.test;

    import java.io.IOException;
    import java.util.List;

    import android.app.Activity;
    import android.location.Address;
    import android.location.Criteria;
    import android.location.Geocoder;
    import android.location.Location;
    import android.location.LocationListener;
    import android.location.LocationManager;
    import android.os.Bundle;
    import android.util.Log;
    import android.widget.Toast;

    public class MainActivity extends Activity {
    @Override
    public void onCreate(Bundle savedInstanceState) {
    super.onCreate(savedInstanceState);
    setContentView(R.layout.main);

    //获取到LocationManager对象
    LocationManager locationManager = (LocationManager) getSystemService(LOCATION_SERVICE);
    //创建一个Criteria对象
    Criteria criteria = new Criteria();
    //设置粗略精确度
    criteria.setAccuracy(Criteria.ACCURACY_COARSE);
    //设置是否需要返回海拔信息
    criteria.setAltitudeRequired(false);
    //设置是否需要返回方位信息
    criteria.setBearingRequired(false);
    //设置是否允许付费服务
    criteria.setCostAllowed(true);
    //设置电量消耗等级
    criteria.setPowerRequirement(Criteria.POWER_HIGH);
    //设置是否需要返回速度信息
    criteria.setSpeedRequired(false);

    //根据设置的Criteria对象,获取最符合此标准的provider对象
    String currentProvider = locationManager.getBestProvider(criteria, true);
    Log.d("Location", "currentProvider: " + currentProvider);
    //根据当前provider对象获取最后一次位置信息
    Location currentLocation = locationManager.getLastKnownLocation(currentProvider);
    //如果位置信息为null,则请求更新位置信息
    if(currentLocation == null){
    locationManager.requestLocationUpdates(currentProvider, 0, 0, locationListener);
    }
    //直到获得最后一次位置信息为止,如果未获得最后一次位置信息,则显示默认经纬度
    //每隔10秒获取一次位置信息
    while(true){
    currentLocation = locationManager.getLastKnownLocation(currentProvider);
    if(currentLocation != null){
    Log.d("Location", "Latitude: " + currentLocation.getLatitude());
    Log.d("Location", "location: " + currentLocation.getLongitude());
    break;
    }else{
    Log.d("Location", "Latitude: " + 0);
    Log.d("Location", "location: " + 0);
    }
    try {
    Thread.sleep(10000);
    } catch (InterruptedException e) {
    Log.e("Location", e.getMessage());
    }
    }

    //解析地址并显示
    Geocoder geoCoder = new Geocoder(this);
    try {
    int latitude = (int) currentLocation.getLatitude();
    int longitude = (int) currentLocation.getLongitude();
    List<Address> list = geoCoder.getFromLocation(latitude, longitude, 2);
    for(int i=0; i<list.size(); i++){
    Address address = list.get(i);
    Toast.makeText(MainActivity.this, address.getCountryName() + address.getAdminArea() + address.getFeatureName(), Toast.LENGTH_LONG).show();
    }
    } catch (IOException e) {
    Toast.makeText(MainActivity.this,e.getMessage(), Toast.LENGTH_LONG).show();
    }

    }

    //创建位置监听器
    private LocationListener locationListener = new LocationListener(){
    //位置发生改变时调用
    @Override
    public void onLocationChanged(Location location) {
    Log.d("Location", "onLocationChanged");
    Log.d("Location", "onLocationChanged Latitude" + location.getLatitude());
    Log.d("Location", "onLocationChanged location" + location.getLongitude());
    }

    //provider失效时调用
    @Override
    public void onProviderDisabled(String provider) {
    Log.d("Location", "onProviderDisabled");
    }

    //provider启用时调用
    @Override
    public void onProviderEnabled(String provider) {
    Log.d("Location", "onProviderEnabled");
    }

    //状态改变时调用
    @Override
    public void onStatusChanged(String provider, int status, Bundle extras) {
    Log.d("Location", "onStatusChanged");
    }
    };
    }
    复制代码
     
    另外 有 http://www.jb51.net/article/52676.htm

    android 定位一般有四种方法,这四种方式分别是:GPS定位,WIFI定准,基站定位,AGPS定位,
                                 
    (1)Android GPS:需要GPS硬件支持,直接和卫星交互来获取当前经纬度,这种方式需要手机支持GPS模块(现在大部分的智能机应该都有了)。通过GPS方式准确度是最高的,但是它的缺点也非常明显:1,比较耗电;2,绝大部分用户默认不开启GPS模块;3,从GPS模块启动到获取第一次定位数据,可能需要比较长的时间;4,室内几乎无法使用。这其中,缺点2,3都是比较致命的。需要指出的是,GPS走的是卫星通信的通道,在没有网络连接的情况下也能用。
                                 
    要实用Adnroid平台的GPS设备,首先需要添加上权限,所以需要添加如下权限:  
                                 

    1
    uses-permission android:name= android.permission.ACCESS_FINE_LOCATION  /uses-permission

    具体实现代码如下:

    首先判断GPS模块是否存在或者是开启:

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    private voidopenGPSSettings() {
                LocationManager alm = (LocationManager)this
                   .getSystemService(Context.LOCATION_SERVICE);
                if (alm
                   .isProviderEnabled(android.location.LocationManager.GPS_PROVIDER)) {
                  Toast.makeText(this, GPS模块正常 ,Toast.LENGTH_SHORT)
                      .show();
                  return;
                }
                Toast.makeText(this, 请开启GPS! ,Toast.LENGTH_SHORT).show();
                Intent intent = newIntent(Settings.ACTION_SECURITY_SETTINGS);
               startActivityForResult(intent,0); //此为设置完成后返回到获取界面
              }

    如果开启正常,则会直接进入到显示页面,如果开启不正常,则会进行到GPS设置页面:
                                
    获取代码如下:

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    private voidgetLocation()
              {
                // 获取位置管理服务
                LocationManager locationManager;
                String serviceName = Context.LOCATION_SERVICE;
                locationManager = (LocationManager)this.getSystemService(serviceName);
                // 查找到服务信息
                Criteria criteria = new Criteria();
               criteria.setAccuracy(Criteria.ACCURACY_FINE); // 高精度
                criteria.setAltitudeRequired(false);
                criteria.setBearingRequired(false);
                criteria.setCostAllowed(true);
               criteria.setPowerRequirement(Criteria.POWER_LOW); // 低功耗
                String provider =locationManager.getBestProvider(criteria, true); // 获取GPS信息
                Location location =locationManager.getLastKnownLocation(provider); // 通过GPS获取位置
                updateToNewLocation(location);
                // 设置监听*器,自动更新的最小时间为间隔N秒(1秒为1*1000,这样写主要为了方便)或最小位移变化超过N米
                locationManager.requestLocationUpdates(provider,100 * 1000, 500,
                    locationListener);  }

     到这里就可以获取到地理位置信息了,但是还是要显示出来,那么就用下面的方法进行显示:
                               
    代码

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    private voidupdateToNewLocation(Location location) {
                TextView tv1;
                tv1 = (TextView)this.findViewById(R.id.tv1);
                if (location != null) {
                  double latitude = location.getLatitude();
                  double longitude=location.getLongitude();
                  tv1.setText( 维度: + latitude+ 经度 +longitude);
                } else {
                  tv1.setText( 无法获取地理信息 );
                }
              }

    (2)Android 基站定位:Android 基站定位只要明白了基站/WIFI定位的原理,自己实现基站/WIFI定位其实不难。基站定位一般有几种,第一种是利用手机附近的三个基站进行三角定位,由于每个基站的位置是固定的,利用电磁波在这三个基站间中转所需要时间来算出手机所在的坐标;第二种则是利用获取最近的基站的信息,其中包括基站 id,location area code、mobile country code、mobile network code和信号强度,将这些数据发送到google的定位web服务里,就能拿到当前所在的位置信息,误差一般在几十米到几百米之内。其中信号强度这个数据很重要,
                                
                   这里笔者就不多做解释了,直接给出一个文章,这个文章写的非常好,
                                
                   http://www.jb51.net/article/34522.htm
                                 
    (3)Android Wifi定位:根据一个固定的WifiMAC地址,通过收集到的该Wifi热点的位置,然后访问网络上的定位服务以获得经纬度坐标。因为它和基站定位其实都需要使用网络,所以在Android也统称为Network方式。
                   
    代码:
                                 
                   

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    public classWiFiInfoManager implements Serializable {
              private static final long serialVersionUID= -4582739827003032383L;
              private Context context;
              public WiFiInfoManager(Context context) {
                super();
                this.context = context;
              }
              public WifiInfo getWifiInfo() {
                WifiManager manager = (WifiManager)context
                   .getSystemService(Context.WIFI_SERVICE);
                WifiInfo info = new WifiInfo();
                info.mac =manager.getConnectionInfo().getBSSID();
                Log.i( TAG , WIFI MACis: + info.mac);
                return info;
              }
              public class WifiInfo {
                public String mac;
                public WifiInfo() {
                  super();
                }
              }
            }

    上面是取到WIFI的mac地址的方法,下面是把地址发送给google服务器,代码如下
                               
                   

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    public staticLocation getWIFILocation(WifiInfo wifi) {
                if (wifi == null) {
                  Log.i( TAG , wifiis null. );
                  return null;
                }
                DefaultHttpClient client = newDefaultHttpClient();
                HttpPost post = new HttpPost( http://www.google.com/loc/json );
                JSONObject holder = new JSONObject();
                try {
                  holder.put( version , 1.1.0 );
                  holder.put( host , maps.google.com );
                  JSONObject data;
                  JSONArray array = new JSONArray();
                  if (wifi.mac != null  wifi.mac.trim().length()  0) {
                    data = new JSONObject();
                   data.put( mac_address , wifi.mac);
                   data.put( signal_strength , 8);
                    data.put( age , 0);
                    array.put(data);
                  }
                  holder.put( wifi_towers ,array);
                  Log.i( TAG , request json: + holder.toString());
                  StringEntity se = newStringEntity(holder.toString());
                  post.setEntity(se);
                  HttpResponse resp =client.execute(post);
                  int state =resp.getStatusLine().getStatusCode();
                  if (state == HttpStatus.SC_OK) {
                    HttpEntity entity =resp.getEntity();
                    if (entity != null) {
                      BufferedReader br = newBufferedReader(
                          newInputStreamReader(entity.getContent()));
                      StringBuffer sb = newStringBuffer();
                      String resute = ;
                      while ((resute =br.readLine()) != null) {
                        sb.append(resute);
                      }
                      br.close();
                      Log.i( TAG , response json: + sb.toString());
                      data = newJSONObject(sb.toString());
                      data = (JSONObject)data.get( location );
                      Location loc = newLocation(
                         android.location.LocationManager.NETWORK_PROVIDER);
                      loc.setLatitude((Double)data.get( latitude ));
                      loc.setLongitude((Double)data.get( longitude ));
                     loc.setAccuracy(Float.parseFloat(data.get( accuracy )
                          .toString()));
                      loc.setTime(System.currentTimeMillis());
                      return loc;
                    } else {
                      return null;
                    }
                  } else {
                    Log.v( TAG , state + );
                    return null;
                  }
                } catch (Exception e) {
                  Log.e( TAG ,e.getMessage());
                  return null;
                }
              }

    (3.1)而WIFI定位与基站定位的结合,笔者也在网上找到一个很好的文章,笔者对此就不做任何解释,直接给出网址:
                               
                   http://www.jb51.net/article/52673.htm
                                 

    4. AGPS定位

    AGPS(AssistedGPS:辅助全球卫星定位系统)是结合GSM或GPRS与传统卫星定位,利用基地台代送辅助卫星信息,以缩减GPS芯片获取卫星信号的延迟时间,受遮盖的室内也能借基地台讯号弥补,减轻GPS芯片对卫星的依赖度。和纯GPS、基地台三角定位比较,AGPS能提供范围更广、更省电、速度更快的定位服务,理想误差范围在10公尺以内,日本和美国都已经成熟运用AGPS于LBS服务(Location Based Service,基于位置的服务)。AGPS技术是一种结合了网络基站信息和GPS信息对移动台进行定位的技术,可以在GSM/GPRS、WCDMA和CDMA2000网络中使进行用。该技术需要在手机内增加GPS接收机模块,并改造手机的天线,同时要在移动网络上加建位置服务器、差分GPS基准站等设备。AGPS解决方案的优势主要体现在其定位精度上,在室外等空旷地区,其精度在正常的GPS工作环境下,可以达到10米左右,堪称目前定位精度最高的一种定位技术。该技术的另一优点为:首次捕获GPS信号的时间一般仅需几秒,不像GPS的首次捕获时间可能要2~3分钟

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  • 原文地址:https://www.cnblogs.com/bnuvincent/p/4604134.html
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