Cuvillier Verlag
| Departments | |
|---|---|
| Book Series (83) |
1157
|
| Medienwissenschaften |
15
|
| Humanities |
2104
|
| Natural Sciences |
5224
|
| Mathematics | 222 |
| Informatics | 304 |
| Physics | 969 |
| Chemistry | 1321 |
| Geosciences | 127 |
| Human medicine | 233 |
| Stomatology | 10 |
| Veterinary medicine | 90 |
| Pharmacy | 144 |
| Biology | 798 |
| Biochemistry, molecular biology, gene technology | 109 |
| Biophysics | 24 |
| Domestic and nutritional science | 44 |
| Agricultural science | 977 |
| Forest science | 200 |
| Horticultural science | 18 |
| Environmental research, ecology and landscape conservation | 140 |
| Geographie |
1
|
| Engineering |
1627
|
| Common |
83
|
|
Leitlinien Unfallchirurgie
5. Auflage bestellen |
|
Advanced Search
Hard Copy
EUR 36.10 EUR 0.00
E-book
EUR 0.00
Methodologies and Protocols for Wireless Communication in Large-Scale, Dense Mesh Networks (English shop)
Stefan Unterschütz (Author)Preview
Table of Contents, PDF (52 KB)
Extract, PDF (110 KB)
| ISBN-13 (Hard Copy) | 9783954047079 |
| ISBN-13 (eBook) | 9783736947078 |
| Language | English |
| Page Number | 192 |
| Lamination of Cover | matt |
| Edition | 1. Aufl. |
| Publication Place | Göttingen |
| Place of Dissertation | Hamburg-Harburg |
| Publication Date | 2014-04-30 |
| General Categorization | Dissertation |
| Departments |
Informatics
|
| Keywords | distributed systems, wireless mesh network, sensor network, self-stabilization |
Description
This dissertation examines concepts for wireless communication in large-scale, dense mesh networks, which can be used in future for plant control or building automation. It is shown that recent communication approaches for resource-constrained, IEEE 802.15.4 hardware do not scale well. This motivates the development of methodologies and protocols for reliable wireless communication in large-scale networks. This work covers the following topics: a “toolbox” for the development, programming, testing, and simulation of communication protocols for embedded systems; the decomposition of large networks into smaller subnets; concepts for scalable broadcasting and routing; the realization of selected network services such as emergency shutdowns and software updates.
