Libros importados hasta 50% OFF + Envío Gratis a todo USA  Ver más

menu

0

My Account

  • argentina
  • chile
  • colombia
  • españa
  • méxico
  • perú
  • estados unidos
  • internacional
portada Methods to Improve the Maintenance of the Earth Catalog of Satellites during Severe Solar Storms (in English)
Type
Physical Book
Author
Publisher
Language
Inglés
Pages
128
Format
Paperback
Dimensions
24.6 x 18.9 x 0.7 cm
Weight
0.24 kg.
ISBN13
9781288911295
Categories

Methods to Improve the Maintenance of the Earth Catalog of Satellites during Severe Solar Storms (in English)

National Aeronautics and Space Administr (Author) · Robert H. Tolson (Author) · Paul G. Wilkin (Author) · Biblioscholar · Paperback

Methods to Improve the Maintenance of the Earth Catalog of Satellites during Severe Solar Storms (in English) - National Aeronautics and Space Administr ; Wilkin, Paul G. ; Tolson, Robert H.

Physical Book

$ 48.80

$ 57.95

You save: $ 9.15

16% discount
Envío gratis a todo Estados Unidos
  • Condition: New

Choose the list to add your product or create one New List

Go to My Wishlists
It will be shipped from our warehouse between Monday, July 29 and Tuesday, July 30.
You will receive it anywhere in United States between 1 and 3 business days after shipment.

Synopsis "Methods to Improve the Maintenance of the Earth Catalog of Satellites during Severe Solar Storms (in English)"

The objective of this thesis is to investigate methods to improve the ability to maintain the inventory of orbital elements of Earth satellites during periods of atmospheric disturbance brought on by severe solar activity. Existing techniques do not account for such atmospheric dynamics, resulting in tracking errors of several seconds in predicted crossing time. Two techniques are examined to reduce of these tracking errors. First, density predicted from various atmospheric models is fit to the orbital decay rate for a number of satellites. An orbital decay model is then developed that could be used to reduce tracking errors by accounting for atmospheric changes. The second approach utilizes a Kalman filter to estimate the orbital decay rate of a satellite after every observation. The new information is used to predict the next observation. Results from the first approach demonstrated the feasibility of building an orbital decay model based on predicted atmospheric density. Correlation of atmospheric density to orbital decay was as high as 0.88. However, it is clear that contemporary: atmospheric models need further improvement in modeling density perturbations polar region brought on by solar activity. The second approach resulted in a dramatic reduction in tracking errors for certain satellites during severe solar Storms. For example, in the limited cases studied, the reduction in tracking errors ranged from 79 to 25 percent.

Customers reviews

More customer reviews
  • 0% (0)
  • 0% (0)
  • 0% (0)
  • 0% (0)
  • 0% (0)

Frequently Asked Questions about the Book

Is the book original?

All books in our catalog are Original.

In what language is the book written?

The book is written in English.

What is the format of this book?

The binding of this edition is Paperback.

Questions and Answers about the Book

Do you have a question about the book? Login to be able to add your own question.

Opinions about Bookdelivery

More customer reviews