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Integrated Methods for Optimization

John N. Hooker

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Institución detectada Año de publicación Navegá Descargá Solicitá
No detectada 2007 SpringerLink

Información

Tipo de recurso:

libros

ISBN impreso

978-0-387-38272-2

ISBN electrónico

978-0-387-38274-6

Editor responsable

Springer Nature

País de edición

Reino Unido

Fecha de publicación

Información sobre derechos de publicación

© Springer Science+Business Media, LLC 2007

Tabla de contenidos

Introduction

John N. Hooker

In the previous chapters I described observational research projects that can be done using equipment that is commonly available in the amateur astronomer’s toolkit, or which can be added at modest expense. I avoided projects that require the use of math beyond standard high-school algebra. There are, of course, valuable projects that go outside these arbitrary boundaries. The purpose of this chapter is to identify additional projects that may be of interest to the amateur researcher. If you are willing to invest in some specialized equipment, or do some more complex math, then these projects can be brought within the boundaries of your universe. The equipment needed for some of them is likely to cost you a couple of thousand dollars, and may also require that you do some custom design, construction, and de-bugging. Depending on your budget and your enthusiasm for a particular area of research, these can be extremely rewarding investments in your hobby.

Pp. 1-14

Search

John N. Hooker

In the previous chapters I described observational research projects that can be done using equipment that is commonly available in the amateur astronomer’s toolkit, or which can be added at modest expense. I avoided projects that require the use of math beyond standard high-school algebra. There are, of course, valuable projects that go outside these arbitrary boundaries. The purpose of this chapter is to identify additional projects that may be of interest to the amateur researcher. If you are willing to invest in some specialized equipment, or do some more complex math, then these projects can be brought within the boundaries of your universe. The equipment needed for some of them is likely to cost you a couple of thousand dollars, and may also require that you do some custom design, construction, and de-bugging. Depending on your budget and your enthusiasm for a particular area of research, these can be extremely rewarding investments in your hobby.

Pp. 15-104

Inference

John N. Hooker

In the previous chapters I described observational research projects that can be done using equipment that is commonly available in the amateur astronomer’s toolkit, or which can be added at modest expense. I avoided projects that require the use of math beyond standard high-school algebra. There are, of course, valuable projects that go outside these arbitrary boundaries. The purpose of this chapter is to identify additional projects that may be of interest to the amateur researcher. If you are willing to invest in some specialized equipment, or do some more complex math, then these projects can be brought within the boundaries of your universe. The equipment needed for some of them is likely to cost you a couple of thousand dollars, and may also require that you do some custom design, construction, and de-bugging. Depending on your budget and your enthusiasm for a particular area of research, these can be extremely rewarding investments in your hobby.

Pp. 105-248

Relaxation

John N. Hooker

In the previous chapters I described observational research projects that can be done using equipment that is commonly available in the amateur astronomer’s toolkit, or which can be added at modest expense. I avoided projects that require the use of math beyond standard high-school algebra. There are, of course, valuable projects that go outside these arbitrary boundaries. The purpose of this chapter is to identify additional projects that may be of interest to the amateur researcher. If you are willing to invest in some specialized equipment, or do some more complex math, then these projects can be brought within the boundaries of your universe. The equipment needed for some of them is likely to cost you a couple of thousand dollars, and may also require that you do some custom design, construction, and de-bugging. Depending on your budget and your enthusiasm for a particular area of research, these can be extremely rewarding investments in your hobby.

Pp. 249-413

Dictionary of Constraints

John N. Hooker

In the previous chapters I described observational research projects that can be done using equipment that is commonly available in the amateur astronomer’s toolkit, or which can be added at modest expense. I avoided projects that require the use of math beyond standard high-school algebra. There are, of course, valuable projects that go outside these arbitrary boundaries. The purpose of this chapter is to identify additional projects that may be of interest to the amateur researcher. If you are willing to invest in some specialized equipment, or do some more complex math, then these projects can be brought within the boundaries of your universe. The equipment needed for some of them is likely to cost you a couple of thousand dollars, and may also require that you do some custom design, construction, and de-bugging. Depending on your budget and your enthusiasm for a particular area of research, these can be extremely rewarding investments in your hobby.

Pp. 415-447