There is a topic about this included in the Android Developers Guide. I would recommend that you take a look at the code examples on the page.
This is what they mention regarding conserving battery and various parameters.
Adjusting the model to save battery and data exchange
As you test your application, you might find that your model for
providing good location and good performance needs some adjustment.
Here are some things you might change to find a good balance between
the two. Reduce the size of the window
A smaller window in which you listen for location updates means less
interaction with GPS and network location services, thus, preserving
battery life. But it also allows for fewer locations from which to
choose a best estimate. Set the location providers to return updates
Reducing the rate at which new updates appear during the window can
also improve battery efficiency, but at the cost of accuracy. The
value of the trade-off depends on how your application is used. You
can reduce the rate of updates by increasing the parameters in
requestLocationUpdates() that specify the interval time and minimum
distance change. Restrict a set of providers
Depending on the environment where your application is used or the
desired level of accuracy, you might choose to use only the Network
Location Provider or only GPS, instead of both. Interacting with only
one of the services reduces battery usage at a potential cost of
Basically, consider reducing the frequency of the updates you request or the length of time you request them. This is like golf, the less locations you request the better. Consider the following use case:
In the example the application waits until the user performs an action that needs a location and then stops polling once the location data is no longer needed.
While polling constantly would allow the application to have a location ready at an instant notice its simply not worth the wasted resources, to mitigate the delay when requesting a location you can use
getLastKnownLocation (String provider).
There is a way to determine power usage for the various LocationProviders!
getPowerRequirement () on a LocationProvider will return one of three constants.
int POWER_HIGH A constant indicating a high power requirement.
int POWER_LOW A constant indicating a low power requirement.
int POWER_MEDIUM A constant indicating a medium power requirement.
To make your code more readable look into using
meetsCriteria (Criteria criteria) in any boolean checks to make your code more readable.
I would use this to determine what method your application should use for the lowest power cost, Also you have the benefit of supporting devices that have different power requirements for providers.