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Welcome! Below you will find the privacy policy for Digital Compass, a web application promoting digital literacy that is produced by Common Sense Media Inc., a non-profit company, and our affiliates ("Common Sense," "we" or "us"). We are dedicated to protecting user privacy and handling any personal information we obtain with care and respect. This Privacy Policy (this "Policy") is designed to answer your questions regarding how we collect, protect, use and share information obtained through the Digital Compass App available at www.digitalcompass.org (the "Service"). We hope this information increases your confidence in Common Sense and Digital Compass and enhances your experience using the Digital Compass Service.

Please also see our Terms of Use, which are available on www.digitalcompass.org, which, together with this Policy, govern the use of the Service. We encourage you to read this Policy and the applicable Terms of Use with your parent or guardian before using the Service and not to use the Service if you or your parent or guardian disagrees with any part of this Policy or the Terms of Use. By using the Service, you signify your agreement to the terms and conditions of this Policy and the Terms of Use. Please note, however, that this Policy and the Terms of Use apply solely to your use of the Service and do not govern your use of other websites or mobile applications produced or published by Common Sense.

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Compass Control Pro and Key Digital Integrated Systems deliver flexible and expandable hardware and software solutions, complete with end-user control solutions and featuring latest digital video technologies that delivering integration of the latest technologies.

The only issue I've been having to work against isn't how twitchy the compass is. (Angular Smoothing seems to solve this issue just fine) My main issue is that when the device is held Vertical the compass values start freaking out. Causing an on screen compass to flip about all over the place. I don't have a lot of experience with mobile application development so I'm not sure what would be causing this issue, if its a Unity issue or if its just a limitation of the digital compass. I know other apps do seem to be able to use the compass fine in any orientation, but this is all stupidly new to me.

The problem can be generalized in the following way. You want to have some continuous function that takes a 3D vector (which is device orientation in your case) and returns another vector that is orthogonal to original vector. Theory says (see hairy ball theorem) that for some arguments that function will return zero vectors. In case when such a function is compass, zero vectors are returned when device is oriented vertical (and this fells quite natural if you have ever used an ordinary compass).

The magnetic compass, the clock, the sextant, and the maps have long been the only navigation instruments. Along with the log in the navy, and the anemometer in aeronautics, to measure the speed and estimate the distance traveled as a function of the elapsed time. Some World War II planes were equipped with an astrodome to allow the radio navigator to take an astronomical point with the sextant. At the end of the 1950s, Air France had equipped its Super Starliners with a periscopic sextant!

The heart of a digital compass is a triaxial magnetometer. This particular sensor analyzes the surrounding magnetic field and breaks it down into three vectors along the three orthogonal axes x, y, and z of its Cartesian coordinate system.

Magneto v1.2 and MotionCal tools each provide two matrices of decimal numbers, and their comparison shows that the two software provide almost identical coefficients. These coefficients are to be used in the application software operating the magnetometer to achieve the hard and soft iron compensation.

Through the suite of popular choose-your-own-path games, students play through the perspective of one of eight main characters, each of whom is facing a different digital citizenship dilemma. The varied story paths and multiple decision points encourage students to play repeatedly in order to explore alternative courses of action. Games are also available in Spanish.

To reach the digital targets and objectives, the European Commission will accelerate and facilitate the launch of multi-country projects, large-scale projects that no single Member State could develop on its own.

The Commission has identified an initial list of multi-country projects. This list includes areas for investment such as data infrastructure, low-power processors, 5G communication, high-performance computing, secure quantum communication, public administration, blockchain, digital innovation hubs, digital skills and cybersecurity.

The Declaration, put forward by the Commission in January 2022, presents the EU's commitment to a secure, safe and sustainable digital transformation that puts people at the centre, in line with core EU values and fundamental rights.

The digital rights and principles outlined in the Declaration will complement existing rights, such as those rooted in the Charter of Fundamental Rights of the EU, and data protection and privacy legislation. They will provide a reference framework for citizens on their digital rights, as well as guidance for EU Member States and for companies when dealing with new technologies. They are intended to help everyone in the EU get the most out of the digital transformation.

There are "digital compasses" for sale, which basically have a real magnetic compass inside which they read. Those I found are for industrial applications, though; dunno if there's one that you can connect to a laptop.

I have a drone which uses a magnetic sensor and that complains about magnetic disturbance when I try to start from a car top or some concrete surfaces (because of steel reinforcement). On the other side I have seen cars with electronic compass functions in the rear view mirror area. So, it seems possible to compensate for the metal of the car. But then those engineers might have spend a couple of month to solve that issue.

Has anyone tried using a cell phone app, or dedicated digital compass to get azimuth readings for a DOB scope? Just wondering- I know there are better options like Astrohopper or installing a circular compass grid in the base of a DOB mount. Using my phone and eyeballing the alignment with specific stars, the actual eyeballed digital alignment seemed to match pretty well the star azimuth coordinates in SkySafari (haven't tried this with a scope). One odd thing- the compass app was much more accurate when I set it to align to magnetic north, not true north. I thought the opposite would be true.

Calibrated compass error goes easily up to 15-20 degree... That is why in AstroHopper I don't actually use compass except for initial approximate direction and switch to gyro based orientation after initial alignment.

(A brief note: In first aligning my Evolution mount, I use Sky Safari to get the bearing and altitude of a bright object, often well before dark. Then I aim my OTA to that elevation (love these clutches!) using a cheap digital level. Since I usually observe from one of just a few spots, I know sort of which way to point the OTA, and sweep it across that bearing while looking thru the 9x50 finder that I added.)

My iPhones have NEVER been close to what my Suunto compasses say (I always use two Suuntos pushed up against my three foot level which is flush against the back legs of my tripod when aligning). The Suuntos have been right, the iPhones...never.

None of my phones have ever had a compass chip in them. When I need to rough align azimuth in the daytime I have a little old plastic Boy Scout compass in the glovebox of the truck. Good enough. If I need a better alignment I use the sun and it's azimuth coord as displayed by Stellarium. ff782bc1db