Tuesday, November 18, 2014

An example of user data with the new version of the app

I've been browsing the incoming Loss of the Night app data, and I wanted to share the details of a recently submitted observation.

One of the things that we changed in the new version of the Loss of the Night app (iOS, Android) was to give users more options to describe what stars look like. The original app had three options: visible, not visible, and unsure. In the new version*, we now ask users to distinguish whether the star is "clearly" or "barely" visible, and added a new option, "visible only with averted vision".

If you've used the app outside, you've probably noticed that sometimes you can't see a star when you look directly at it, but when you look off to the side it appears. This is because the very center of your eye is packed with color sensing cones for vision in daytime, rather than the rods we use to see at night. The cones aren't sensitive enough to see the star, but if you look just off to the side, your eye has enough rods to let you see it.

The plot below shows the observations that project contributor Matt Sidor took using the app on the outscirts of Davis, California a few nights ago. The filled in blue circles are stars that are clearly visible, the black stars are stars that were barely visible, filled in red circles were visible only with averted vision, and empty red circles were stars that were invisible.


Matt did a fantastic job! With 14 stars, he had almost perfect separation between the stars that he could see directly and the stars that he couldn't. The new classifications give us more information than was available in the old version, and should lead to more accurate estimations of the sky brightness.

The other thing the image shows is how the app now focuses much more carefully on stars close to the limiting magnitude. Compare the stars Matt was asked to see with older data from the original app version below:

The older version of the app was much less aggressive about testing stars near the limiting magnitude. We expect that by staying closer to the limit, user observations will be more accurate. When an observer makes a mistake (it happens!), the range over which the app tests grows in response. When you finish your observation, the app will let you know how accurate your measurement was. If you use the app over time, you can see if your accuracy improves as you get more practice!

* I'd like to acknowledge this recent paper by Andrew Crumey as the inspiration for us to move from 3 possible classifications to 5. In case you don't have access, a preprint is also available.

Monday, November 10, 2014

New version of the Loss of the Night app is released!

The updated version of the Loss of the Night app is now available for iOS and Android!


The app lets citizen scientists like you measure how bright the night sky is, by seeing which stars you are able to see. The more faint stars you can see, the more natural your sky is. Your results are then shared with the GLOBE at Night project, and will be used to track how the night sky is changing in response to widespread adoption of LED lights.

What's in the new version?
  • Improved feedback: We fit your data and tell you the estimated naked eye limiting magnitude, approximately how many stars are in your sky, and how consistent your observations were:

  • Smoother behavior: Phones that had problems with an unstable star field should now be fixed.
  • More customization: You can change font sizes and switch the screen brightness between a city/country mode. Pinch zooming will replace the zoom buttons.
  • Better night mode: Removal of gray backgrounds and replacing orange with red in many places.
  • Improved measurement technique: new options to tell us if the star is clearly or barely visible, or if you can only see it with averted vision
  • Better set of stars used: So the app is quicker and easier to use, and more accurate
  • Expanded language support: To Czech, Hebrew, Slovak, and Turkish
  • News about our project: Links to these blog posts on the news page
  • Calculation of next possible observing time: If the moon is up, the app will figure out when the next good (evening) observing time is for your location, and let you put it in your calendar
  • Feedback button: So you can tell us what we should do next! 
  • Faster GPS convergence

Thanks to everyone who gave us feedback on how to improve the app, to the translators, and to everyone who has used the app and provided us with data. This new version couldn't exist without you!

Now, we need your help once again to spread word about the app, because the project will only be a success if there are thousands of people taking data worldwide. So please post news about it on social media, tell your friends about the app, and give it a good rating in the app and play stores to help make it more visible!

If you'd like some more information, you can read our press release. Step-by-step guides for using the app are available for iOS and Android.

Sunday, November 9, 2014

A step by step guide to using the Loss of the Night app for iOS

This is a step by step guide to using the Loss of the Night app for iOS (v1.0.4). If anything is unclear, let me know in the comments and I will revise the instructions.
Instructions for Android
Infos auf Deutsch 

Requirements:


iPhone (some iPads can also be used)
A location with a light polluted sky.
A friend to accompany you while you are doing observations.
The ability to see at both near and far distances without removing glasses.
Your phone case must not have a magnetic clasp.

Before you start:


The Loss of the Night app is meant to be used outside at night. For safety's sake, inspect the area where you plan to do your observation during the day, and make sure that it has level ground where you can move around safety.

People using mobile phones are less aware of their surroundings, so you should never use the app alone outdoors at night! Always take a friend to watch out for potential hazards while you are using the app. These could include tripping hazards, vehicles, dangerous weather, and crime. If for some reason it's not safe to do an observation, put down your phone and leave the area immediately!

Installing the app:


To install the app, do a search in the app store for "Loss of the Night". Alternatively, type this address in your browser: http://tinyurl.com/vdn-ios

Or by scanning this QR code:

qr code 

Running the app:


When you first open the app it will display the privacy policies and terms and conditions. To go further, you will need to read the conditions and then click "Accept Privacy Policy", then "Start Application".

When you click "accept" you are brought to a screen with information about light pollution. Click "next" to go on.

Next comes a screen titled "USE". We would appreciate it if you would register and tell us something about your vision and your observing experience. Click "Register Now" or just "Continue as a guest".

If you choose to register, tell us your approximate age by clicking on the word "Age" and then scrolling to the correct age range. Click elsewhere on the screen to select the age. Next, click to tell us whether you wear glasses, and how much stargazing experience you have. We also ask you to provide a username and your email. If you provide your email, we will send you a thank you email within about a month of your observation. In extremely rare cases we contact a user if we have questions about their data. When you have finished entering your information, click the ⧁ button to go to the main menu.

Making an observation


To start an observation from the main menu, click "start observing stars".  The screen will show you an indication asking you to tip your phone into landscape mode. At this point, the app will only work properly if you're outside, as it needs to get a GPS signal. This can sometimes take up to a few minutes.

If it is still twilight or if the moon is in the sky, the app will give you a message that it's not "dark enough". The moon prevents measurements from being made for about two weeks at a time, so if this is the case, the app allows you to add a note to your calendar when the next observing period at your location starts. (Click "Measure anyway" if you'd like to test out the app.)

(At this point, in locations with a lot of magnetic material or electric cables around, your phone may give you a warning that your compass has a problem. You can try to calibrate it by moving your phone in a figure 8, or turning it around all three axes. It this doesn't work, then there is either a problem with your location or your phone's compass. You can opt to measure anyway, but the stars displayed on the phone will likely be shifted compared to the ones in the sky.)

Next, you are asked to input the current weather conditions. Click the relevant symbol (or symbols), and then "Continue".

Star search

The app will now try to direct you to one of the brightest stars in the sky. Turn your body in a circle and watch how the arrow changes direction. Tilt your arm down so that your app is pointed toward the ground, and it will show you the stars that are under the Earth. Tilt your arm up to the sky, and it should show you the stars that are currently in the sky. It is very important that while looking at the stars in the sky you keep the phone's screen oriented perpendicular to your body!


Now search for the star the app is asking you to look for. Turn your body until the arrow points straight up, and then raise your arms until you see a star with a crosshair on it. When you find the star, the circle will expand to fill most of the screen and three buttons will appear at the bottom of the screen.


Your job is to decide whether the star the app pointed you to is visible to your naked eye or not. If you can see the star, then click "Star is visible" on the bottom right. The app will then ask if it's "clearly visible" (very obvious and easy to see) or "barely visible" (you can see it while looking at it directly, but just barely).

If you cannot see the very first star, there may be something wrong with your phone. The app always starts with one of the very brightest stars in the sky, which should be visible even inside of large cities. The most likely problem is that your compass is not working properly. If your phone is in a carrying case that has a magnetic clasp, you will need to take the phone out of its case and then recalibrate the compass (quit the app, and then start it again).

If the stars appear to be bouncing around a lot, you may be in a location with strong electromagnetic fields (e.g. near overhead or buried power lines). It's best to try to use the app in a grassy area, like a park. Finally, it's possible that the compass or GPS from your phone is not working properly, and if this is the case the app will not work on your phone.

Continuing your observation


Each time you find a star, the app will ask you if it's visible or not. If you can't see the star for some reason, click on "Not visible or unsure". You will then be brought to a menu that gives you five options for why you can't see the star. Choose the option that is most appropriate:


If you can see the star only when you don't look directly at it, or if is only visible some of the time, then choose "Visible only with averted vision". If you're not sure which star we're asking for, or if for some reason you find it too hard to tell whether the star is there or not, choose "I'm not sure if it's there or not".

Once you have made a decision on a total of 8 stars, the app will pop up a message that says "8 stars reached". You will have the option to quit, "Register" (if you haven't done so already), or "3 more stars". We would really appreciate it when you observe a few additional stars, because observing more stars improves the accuracy of your measurement.

If you click "3 more stars" the app will ask you again when you reach 11, 14, and 17 stars. After that, if you want to continue, it won't interrupt you anymore, and you can click the "back" button whenever you are ready to end your observation. When you end your observation, the data is automatically sent to a server hosted by the GLOBE at Night project if your phone has an Internet connection. If you have a data plan, this should happen immediately, otherwise, it will be transferred the next time you have a WiFi connection.


When you finish your measurement, the app will let you know how faint the faintest visible star in your sky is (naked eye limiting magnitude), and approximately how many stars are visible in your sky. For reference, in places without light pollution, it's possible to see many thousands of stars. The app will also let you know how consistent your measurements were. The more you use the app, the better you will get at making accurate, consistent observations!

Accessing your data


The app stores the results of your observations on your phone. In the main menu, click on "User data" and then "My measurements". A screen will come up showing the dates that you did observations, and the results. If you click on an observation, then the app will show you the names and magnitudes of the stars that you looked for, and what your decision was (stars with smaller magnitudes are brighter.)

Personal settings


The "User data" menu allows you to change some of the app settings. You can toggle the display of star and constellation names, and choose whether some screens display on start up. You can also increase the size of stars and fonts (this might help if you are farsighted). If you find that the screen is too bright during your star observations, click "Make screen darker" and see if it helps.

Additional information:


As the year goes on, different stars appear in the night sky over your head. If you enjoy using the app, feel free to use it as often as you like!

The app contains a lot of information about light pollution that you might find interesting. You can access this information by clicking on "Project information" in the main menu.

You can also switch between "Day mode" and "Night mode" in the main menu. Please use the Night mode when making observations, because it is designed to have less of an effect on your night vision.

If you have a Sky Quality Meter, you can submit data taken with the device as well. From the main menu, click "Submit data from SQM" and then use the scroll wheels to enter the SQM value.

More information about the Loss of the Night app project is available on our blog.

If you'd like to read a paper that demonstrates the scientific value of citizen observations of naked eye star visibility, you can access it for free here.

The app is available in 15 languages, and automatically uses the language that your device is set to.

Thank you!


Thank you for taking part in this project! Your data will help us understand how the brightness of the night sky is changing around the world. Because we are interested in understanding long-term changes, the most valuable data are observations taken at the same place year after year.

Wednesday, November 5, 2014

A step by step guide to using the Loss of the Night app on Android

This is an old version of the instructions for using the Loss of the Night app for Android. New instructions for version 2.1.7 are available here.


Loss of the Night app expanding to 15 languages!

The updated version of the Loss of the Night app is going to come out very soon. In addition to lots of new features, we've added support for Czech, Hebrew, Slovak, and Turkish.

We would like to recognize our volunteer translators for their considerable donation of time to this project:



Arabic: Amr Al-Omari
Catalan: Salvador Ribas
Chinese: Yongguang Zhang
Czech - Milada Moudrá, Michal Bareš
French: Olivier Domingue, Johanne Roby, Martin Aubé, and Romain Clément
German: Annette Krop-Benesch
Hebrew - Roni Segoly
Italian: Andrea Giacomelli
Japanese: Nobuaki Ochi
Polish: Ania Wisniewska
Romanian: Catalin Daniel Galatanu
Slovak - Jaroslav Merc, Peter Begeni, Pavol Rapavý
Spanish: Salvador Ribas
Turkish - Nail Köker

Thanks to all of you for helping make this a truly international project!

If you are interested in helping us expand the app to include your language, please send me an email.

Monday, November 3, 2014

There's a (weak) meteor shower during November's observing period

This month the observing period for the Loss of the Night app runs from about November 10 to November 27*. That means that this year's Leonid meteor shower on the night of November 17 will be visible at the same time that you can do app observations. The Leonid shower isn't expected to be particularly dramatic this year, but since the Leonids are known for producing particularly bright meteors that can be easily seen inside of cities, it might be worthwhile to go out if you have clear skies on the 17th.

Leonid Meteor
A Leonid meteor during the 2009 shower

* exact dates depend on where you live, and what time of night you want to observe.