Capítulos de Libro (13) Publicaciones en las que ha participado algún/a investigador/a

2012

  1. Approximation of dynamic programs

    Handbook of Computational Finance (Springer Berlin Heidelberg), pp. 633-649

  2. Descriptive Biostatistics

    EVOLUTION OF THE USE OF MATHEMATICS IN CANCER RESEARCH (SPRINGER), pp. 17-32

  3. Equations: Formulating Biomedical Laws and Biomedical Magnitudes

    EVOLUTION OF THE USE OF MATHEMATICS IN CANCER RESEARCH (SPRINGER), pp. 129-199

  4. Experimentos científicos para curiosos como actividad de verano rural

    Enseñanza y divulgación de la química y la física (Ibergarceta), pp. 63-70

  5. Game Theory

    EVOLUTION OF THE USE OF MATHEMATICS IN CANCER RESEARCH (SPRINGER), pp. 341-386

  6. Historical Introduction

    EVOLUTION OF THE USE OF MATHEMATICS IN CANCER RESEARCH (SPRINGER), pp. 1-24

  7. Inferential Biostatistics (I): Estimating Values of Biomedical Magnitudes

    EVOLUTION OF THE USE OF MATHEMATICS IN CANCER RESEARCH (SPRINGER), pp. 33-57

  8. Inferential Biostatistics (II): Estimating Biomedical Behaviors

    EVOLUTION OF THE USE OF MATHEMATICS IN CANCER RESEARCH (SPRINGER), pp. 59-127

  9. Optimal Control Theory: From Knowledge to Control (I). Basic Concepts

    EVOLUTION OF THE USE OF MATHEMATICS IN CANCER RESEARCH (SPRINGER), pp. 277-307

  10. Optimal Control Theory: From Knowledge to Control (II). Biomedical Applications

    EVOLUTION OF THE USE OF MATHEMATICS IN CANCER RESEARCH (SPRINGER), pp. 309-339

  11. Systems of Equations: The Explanation of Biomedical Phenomena (I). Basic Questions

    EVOLUTION OF THE USE OF MATHEMATICS IN CANCER RESEARCH (SPRINGER), pp. 201-240

  12. Systems of Equations: The Explanation of Biomedical Phenomena (II). Dynamic Interdependencies

    EVOLUTION OF THE USE OF MATHEMATICS IN CANCER RESEARCH (SPRINGER), pp. 241-275

  13. Time-Frequency Analysis of MEG activity in Alzheimer’s Disease

    Recent Advances in Biomedical Signal Processing, pp. 123-140