Software radio systems engineering for URLLC Industrie 4.0 applications:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Abschlussarbeit Buch |
| Sprache: | English |
| Veröffentlicht: |
Düren
Shaker Verlag
2023
|
| Ausgabe: | 1. Auflage |
| Schriftenreihe: | Dissertationen aus dem Arbeitsbereich Nachrichtentechnik der Universität Bremen
13 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | VIII, 235 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 324 g |
| ISBN: | 9783844093070 3844093079 |
Internformat
MARC
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| 100 | 1 | |a Demel, Johannes |4 aut | |
| 245 | 1 | 0 | |a Software radio systems engineering for URLLC Industrie 4.0 applications |c Johannes Demel |
| 264 | 1 | |a Düren |b Shaker Verlag |c 2023 | |
| 300 | |a VIII, 235 Seiten |b Illustrationen, Diagramme |c 21 cm x 14.8 cm, 324 g | ||
| 336 | |b txt |2 rdacontent | ||
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| 338 | |b nc |2 rdacarrier | ||
| 490 | 1 | |a Dissertationen aus dem Arbeitsbereich Nachrichtentechnik der Universität Bremen |v 13 | |
| 502 | |b Dissertation |c Universität Bremen |d 2023 | ||
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| 650 | 0 | 7 | |a Zuverlässigkeit |0 (DE-588)4059245-5 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Funkübertragung |0 (DE-588)4018941-7 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a 5G |0 (DE-588)1188755676 |2 gnd |9 rswk-swf |
| 653 | |a 5G | ||
| 653 | |a URLLC | ||
| 653 | |a Industrie 4.0 | ||
| 653 | |a Industrial Radio | ||
| 653 | |a SDR | ||
| 653 | |a Software | ||
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Datensatz im Suchindex
| _version_ | 1805086346357768192 |
|---|---|
| adam_text |
CONTENTS
1
INTRODUCTION
-
INDUSTRIAL
RADIO
SYSTEMS
ENGINEERING
1
1.1
INDUSTRIAL
RADIO
REQUIREMENTS
.
2
1.2
SOFTWARIZATION
FOR
CLOUD
RANS
.
3
1.3
OBJECTIVE
OF
THIS
THESIS
.
5
1.4
CONTRIBUTIONS
AND
STRUCTURE
.
6
1.4.1
FUNDAMENTALS
.
6
1.4.2
CHANNEL
CODING
.
6
1.4.3
SYMBOL
MAPPING
.
6
1.4.4
MULTICARRIER
MODULATION
.
7
1.4.5
CLOUD
RADIO
ACCESS
NETWORK
.
7
1.4.6
MEDIUM
ACCESS
CONTROL
.
7
1.4.7
IMPLEMENTATION
.
8
1.5
NOTATION
.
8
2
INDUSTRIAL
RADIO
SYSTEM
MODEL
9
2.1
LINK
MODEL
.
11
2.2
SMALL
SCALE
CHANNEL
MODEL
.
13
2.2.1
ADDITIVE
WHITE
GAUSSIAN
NOISE
.
14
2.2.2
MULTIPATH
RAYLEIGH
FADING
CHANNEL
MODEL
.
14
2.3
LARGE
SCALE
CHANNEL
MODEL
.
17
2.4
CHAPTER
SUMMARY
.
19
3
LOW-LATENCY
CHANNEL
CODING
FOR
SHORT
PACKETS
21
3.1
CODES
FOR
SHORT
PACKETS
.
22
3.1.1
CODE
CANDIDATES
.
23
3.1.2
CODE
COMPARISON
.
23
3.2
POLAR
CODES
.
24
3.2.1
ENCODER
.
27
3.2.2
CHANNEL
CONSTRUCTION
.
28
3.2.3
DECODER
.
31
VI
TABLE
OF
CONTENTS
3.2.4
PUNCTURING
.
39
3.3
INTEGRATED
DECODING
AND
SECURITY
.
39
3.3.1
CONTRIBUTION
.
41
3.4
NUMERICAL
SOFTWARE
DEFINED
RADIO
PARAMETER
EVALUATION
.
41
3.4.1
BENCHMARKS
.
41
3.4.2
SCL
LIST
SIZE
.
42
3.4.3
CHANNEL
CONSTRUCTION
ALGORITHM
.
46
3.4.4
CRC
AIDED
POLAR
CODES
AND
SECURITY
.
48
3.4.5
SYSTEMATIC
VERSUS
NON-SYSTEMATIC
CODES
.
49
3.4.6
PUNCTURED
CODES
.
51
3.4.7
CONTRIBUTION
.
52
3.5
SUMMARY
.
52
3.5.1
CONTRIBUTION
.
52
4
SYMBOL
MAPPING
53
4.1
FUNDAMENTALS
.
54
4.2
QUADRATURE
AMPLITUDE
MODULATION
.
55
4.3
SOFT
DEMAPPING
.
56
4.4
BIT-INTERLEAVED
CODED
MODULATION
.
57
4.5
MUTUAL
INFORMATION
.
57
4.6
NUMERICAL
SOFTWARE
DEFINED
RADIO
PARAMETER
EVALUATION
.
59
4.7
SUMMARY
.
62
4.7.1
CONTRIBUTION
.
63
5
MULTICARRIER
MODULATION
65
5.1
FUNDAMENTALS
.
67
5.2
RESOURCE
GRID
.
68
5.3
MULTICARRIER
MODULATION
.
69
5.3.1
ORTHOGONAL
FREQUENCY
DIVISION
MULTIPLEXING
.
70
5.3.2
NON-ITERATIVE
EQUALIZATION
STRATEGIES
.
70
5.3.3
GENERALIZED
FREQUENCY
DIVISION
MULTIPLEXING
.
71
5.4
CYCLIC
PREFIX
.
76
5.5
CHANNEL
ESTIMATION
.
78
5.6
NUMERICAL
SOFTWARE
DEFINED
RADIO
PARAMETER
EVALUATION
.
79
5.6.1
RESOURCE
MAPPING
.
79
5.6.2
FAST
FOURIER
TRANSFORM
.
81
5.6.3
GFDM
PARAMETER
EVALUATION
ON
LATENCY
.
83
5.6.4
CYCLIC
PREFIX
.
87
5.6.5
CHANNEL
ESTIMATION
.
88
5.6.6
SYSTEM
EVALUATION
.
90
5.7
SUMMARY
.
91
TABLE
OF
CONTENTS
VII
5.7.1
CONTRIBUTION
.
91
6
CLOUD
RADIO
ACCESS
NETWORK
WITH
FUNCTIONAL
SPLITS
93
6.1
CLOUD
RAN
WITH
DISTRIBUTED
RADIO
ACCESS
POINTS
.
94
6.1.1
JOINT
TRANSMISSION
.
98
6.1.2
JOINT
RECEPTION
.
99
6.2
QUANTIZATION
.
100
6.2.1
INFORMATION
BOTTLENECK
BASED
QUANTIZATION
.
101
6.2.2
UNIFORM
QUANTIZATION
.
104
6.2.3
FIXED
LOG-LIKELIHOOD
RATIO
QUANTIZATION
.
105
6.3
NUMERICAL
CLOUD
RAN
EVALUATION
.
105
6.3.1
ADDITIVE
WHITE
GAUSSIAN
NOISE
.
106
6.3.2
FREQUENCY-SELECTIVE
RAYLEIGH
FADING
.
107
6.3.3
MULTIPLE
DISTRIBUTED
RADIO
ACCESS
POINTS
.
110
6.4
SUMMARY
.
112
6.4.1
CONTRIBUTION
.
113
7
MEDIUM
ACCESS
CONTROL
115
7.1
SYSTEM
VIEW
.
117
7.1.1
RESOURCES
.
117
7.1.2
SYSTEM
FLOWGRAPH
.
119
7.1.3
PACKET
ARRIVAL
MODEL
.
120
7.2
LINK
ABSTRACTION
.
121
7.2.1
EFFECTIVE
SNR
MAPPING
.
122
7.2.2
ADJUSTMENT
FACTOR
CALIBRATION
.
123
7.3
LINK
ABSTRACTION
EVALUATION
.
125
7.3.1
LINK
ABSTRACTION
CONTRIBUTION
.
129
7.4
SCHEDULING
.
130
7.5
RESOURCE
ALLOCATION
.
133
7.6
SYSTEM
LEVEL
SIMULATIONS
.
136
7.6.1
ASSUMPTIONS
.
136
7.6.2
SIMULATION
RESULTS
.
137
7.7
SUMMARY
.
145
7.7.1
CONTRIBUTION
.
145
8
TESTBED
IMPLEMENTATION
147
8.1
TESTBED
CONCEPT
.
148
8.2
TESTBED
CONFIGURATION
.
149
8.3
SOFTWARE
MODEM
SYSTEM
DESIGN
.
152
8.3.1
STREAMING
AND
SIMULATION
SOFTWARE
ARCHITECTURE
.
152
8.3.2
TEST
DRIVEN
DEVELOPMENT
.
154
8.3.3
OBJECT
ORIENTED
PROGRAMMING
.
154
VIII
TABLE
OF
CONTENTS
8.4
SOFTWARE
ENVIRONMENT
.
155
8.4.1
LINUX
HOST
.
155
8.4.2
GNU
RADIO
.
155
8.4.3
USRP
HARDWARE
DRIVER
.
157
8.4.4
SOFTWARE
BENCHMARKING
TOOLS
.
157
8.5
IMPLEMENTED
SOFTWARE
COMPONENTS
.
158
8.5.1
TESTBED
SOFTWARE
INTEGRATION
.
159
8.5.2
SYNCHRONIZATION
.
163
8.5.3
GFDM
IMPLEMENTATION
.
164
8.5.4
SYMBOL
MAPPING
.
165
8.5.5
POLAR
CODES
.
166
8.5.6
LATENCY
MEASUREMENTS
.
166
8.6
HARDWARE
COMPONENTS
.
168
8.7
TESTBED
.
170
8.7.1
LATENCY
.
171
8.7.2
THROUGHPUT
.
175
8.7.3
TESTBED
MEASUREMENTS
AT
BOSCH
HILDESHEIM
.
176
8.7.4
TESTBED
MEASUREMENTS
AT
NEOS
.
181
8.8
SUMMARY
.
184
8.8.1
CONTRIBUTION
.
185
9
SUMMARY
187
9.1
CONTRIBUTIONS
.
187
9.2
OPEN
RESEARCH
QUESTIONS
AND
FUTURE
WORK
.
189
A
SPECIALIZED
NODE
IMPLEMENTATION
IN
C++
191
B
MUTUAL
INFORMATION
DERIVATIONS
193
B.1
ENTROPY
.
193
B.2
CHANNEL
CAPACITY
.
193
B.3
MUTUAL
INFORMATION
FOR
BICM
.
194
C
LOG-LIKELIHOOD
RATIO
CALCULATION
197
C.1
LLR
DEFINITION
.
197
C.2
LIKELIHOOD
.
198
C.3
CALCULATION
.
198
C.4
SPECIALIZED
CALCULATIONS
.
199
ACRONYMS
205
BIBLIOGRAPHY
213 |
| adam_txt |
CONTENTS
1
INTRODUCTION
-
INDUSTRIAL
RADIO
SYSTEMS
ENGINEERING
1
1.1
INDUSTRIAL
RADIO
REQUIREMENTS
.
2
1.2
SOFTWARIZATION
FOR
CLOUD
RANS
.
3
1.3
OBJECTIVE
OF
THIS
THESIS
.
5
1.4
CONTRIBUTIONS
AND
STRUCTURE
.
6
1.4.1
FUNDAMENTALS
.
6
1.4.2
CHANNEL
CODING
.
6
1.4.3
SYMBOL
MAPPING
.
6
1.4.4
MULTICARRIER
MODULATION
.
7
1.4.5
CLOUD
RADIO
ACCESS
NETWORK
.
7
1.4.6
MEDIUM
ACCESS
CONTROL
.
7
1.4.7
IMPLEMENTATION
.
8
1.5
NOTATION
.
8
2
INDUSTRIAL
RADIO
SYSTEM
MODEL
9
2.1
LINK
MODEL
.
11
2.2
SMALL
SCALE
CHANNEL
MODEL
.
13
2.2.1
ADDITIVE
WHITE
GAUSSIAN
NOISE
.
14
2.2.2
MULTIPATH
RAYLEIGH
FADING
CHANNEL
MODEL
.
14
2.3
LARGE
SCALE
CHANNEL
MODEL
.
17
2.4
CHAPTER
SUMMARY
.
19
3
LOW-LATENCY
CHANNEL
CODING
FOR
SHORT
PACKETS
21
3.1
CODES
FOR
SHORT
PACKETS
.
22
3.1.1
CODE
CANDIDATES
.
23
3.1.2
CODE
COMPARISON
.
23
3.2
POLAR
CODES
.
24
3.2.1
ENCODER
.
27
3.2.2
CHANNEL
CONSTRUCTION
.
28
3.2.3
DECODER
.
31
VI
TABLE
OF
CONTENTS
3.2.4
PUNCTURING
.
39
3.3
INTEGRATED
DECODING
AND
SECURITY
.
39
3.3.1
CONTRIBUTION
.
41
3.4
NUMERICAL
SOFTWARE
DEFINED
RADIO
PARAMETER
EVALUATION
.
41
3.4.1
BENCHMARKS
.
41
3.4.2
SCL
LIST
SIZE
.
42
3.4.3
CHANNEL
CONSTRUCTION
ALGORITHM
.
46
3.4.4
CRC
AIDED
POLAR
CODES
AND
SECURITY
.
48
3.4.5
SYSTEMATIC
VERSUS
NON-SYSTEMATIC
CODES
.
49
3.4.6
PUNCTURED
CODES
.
51
3.4.7
CONTRIBUTION
.
52
3.5
SUMMARY
.
52
3.5.1
CONTRIBUTION
.
52
4
SYMBOL
MAPPING
53
4.1
FUNDAMENTALS
.
54
4.2
QUADRATURE
AMPLITUDE
MODULATION
.
55
4.3
SOFT
DEMAPPING
.
56
4.4
BIT-INTERLEAVED
CODED
MODULATION
.
57
4.5
MUTUAL
INFORMATION
.
57
4.6
NUMERICAL
SOFTWARE
DEFINED
RADIO
PARAMETER
EVALUATION
.
59
4.7
SUMMARY
.
62
4.7.1
CONTRIBUTION
.
63
5
MULTICARRIER
MODULATION
65
5.1
FUNDAMENTALS
.
67
5.2
RESOURCE
GRID
.
68
5.3
MULTICARRIER
MODULATION
.
69
5.3.1
ORTHOGONAL
FREQUENCY
DIVISION
MULTIPLEXING
.
70
5.3.2
NON-ITERATIVE
EQUALIZATION
STRATEGIES
.
70
5.3.3
GENERALIZED
FREQUENCY
DIVISION
MULTIPLEXING
.
71
5.4
CYCLIC
PREFIX
.
76
5.5
CHANNEL
ESTIMATION
.
78
5.6
NUMERICAL
SOFTWARE
DEFINED
RADIO
PARAMETER
EVALUATION
.
79
5.6.1
RESOURCE
MAPPING
.
79
5.6.2
FAST
FOURIER
TRANSFORM
.
81
5.6.3
GFDM
PARAMETER
EVALUATION
ON
LATENCY
.
83
5.6.4
CYCLIC
PREFIX
.
87
5.6.5
CHANNEL
ESTIMATION
.
88
5.6.6
SYSTEM
EVALUATION
.
90
5.7
SUMMARY
.
91
TABLE
OF
CONTENTS
VII
5.7.1
CONTRIBUTION
.
91
6
CLOUD
RADIO
ACCESS
NETWORK
WITH
FUNCTIONAL
SPLITS
93
6.1
CLOUD
RAN
WITH
DISTRIBUTED
RADIO
ACCESS
POINTS
.
94
6.1.1
JOINT
TRANSMISSION
.
98
6.1.2
JOINT
RECEPTION
.
99
6.2
QUANTIZATION
.
100
6.2.1
INFORMATION
BOTTLENECK
BASED
QUANTIZATION
.
101
6.2.2
UNIFORM
QUANTIZATION
.
104
6.2.3
FIXED
LOG-LIKELIHOOD
RATIO
QUANTIZATION
.
105
6.3
NUMERICAL
CLOUD
RAN
EVALUATION
.
105
6.3.1
ADDITIVE
WHITE
GAUSSIAN
NOISE
.
106
6.3.2
FREQUENCY-SELECTIVE
RAYLEIGH
FADING
.
107
6.3.3
MULTIPLE
DISTRIBUTED
RADIO
ACCESS
POINTS
.
110
6.4
SUMMARY
.
112
6.4.1
CONTRIBUTION
.
113
7
MEDIUM
ACCESS
CONTROL
115
7.1
SYSTEM
VIEW
.
117
7.1.1
RESOURCES
.
117
7.1.2
SYSTEM
FLOWGRAPH
.
119
7.1.3
PACKET
ARRIVAL
MODEL
.
120
7.2
LINK
ABSTRACTION
.
121
7.2.1
EFFECTIVE
SNR
MAPPING
.
122
7.2.2
ADJUSTMENT
FACTOR
CALIBRATION
.
123
7.3
LINK
ABSTRACTION
EVALUATION
.
125
7.3.1
LINK
ABSTRACTION
CONTRIBUTION
.
129
7.4
SCHEDULING
.
130
7.5
RESOURCE
ALLOCATION
.
133
7.6
SYSTEM
LEVEL
SIMULATIONS
.
136
7.6.1
ASSUMPTIONS
.
136
7.6.2
SIMULATION
RESULTS
.
137
7.7
SUMMARY
.
145
7.7.1
CONTRIBUTION
.
145
8
TESTBED
IMPLEMENTATION
147
8.1
TESTBED
CONCEPT
.
148
8.2
TESTBED
CONFIGURATION
.
149
8.3
SOFTWARE
MODEM
SYSTEM
DESIGN
.
152
8.3.1
STREAMING
AND
SIMULATION
SOFTWARE
ARCHITECTURE
.
152
8.3.2
TEST
DRIVEN
DEVELOPMENT
.
154
8.3.3
OBJECT
ORIENTED
PROGRAMMING
.
154
VIII
TABLE
OF
CONTENTS
8.4
SOFTWARE
ENVIRONMENT
.
155
8.4.1
LINUX
HOST
.
155
8.4.2
GNU
RADIO
.
155
8.4.3
USRP
HARDWARE
DRIVER
.
157
8.4.4
SOFTWARE
BENCHMARKING
TOOLS
.
157
8.5
IMPLEMENTED
SOFTWARE
COMPONENTS
.
158
8.5.1
TESTBED
SOFTWARE
INTEGRATION
.
159
8.5.2
SYNCHRONIZATION
.
163
8.5.3
GFDM
IMPLEMENTATION
.
164
8.5.4
SYMBOL
MAPPING
.
165
8.5.5
POLAR
CODES
.
166
8.5.6
LATENCY
MEASUREMENTS
.
166
8.6
HARDWARE
COMPONENTS
.
168
8.7
TESTBED
.
170
8.7.1
LATENCY
.
171
8.7.2
THROUGHPUT
.
175
8.7.3
TESTBED
MEASUREMENTS
AT
BOSCH
HILDESHEIM
.
176
8.7.4
TESTBED
MEASUREMENTS
AT
NEOS
.
181
8.8
SUMMARY
.
184
8.8.1
CONTRIBUTION
.
185
9
SUMMARY
187
9.1
CONTRIBUTIONS
.
187
9.2
OPEN
RESEARCH
QUESTIONS
AND
FUTURE
WORK
.
189
A
SPECIALIZED
NODE
IMPLEMENTATION
IN
C++
191
B
MUTUAL
INFORMATION
DERIVATIONS
193
B.1
ENTROPY
.
193
B.2
CHANNEL
CAPACITY
.
193
B.3
MUTUAL
INFORMATION
FOR
BICM
.
194
C
LOG-LIKELIHOOD
RATIO
CALCULATION
197
C.1
LLR
DEFINITION
.
197
C.2
LIKELIHOOD
.
198
C.3
CALCULATION
.
198
C.4
SPECIALIZED
CALCULATIONS
.
199
ACRONYMS
205
BIBLIOGRAPHY
213 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author | Demel, Johannes |
| author_facet | Demel, Johannes |
| author_role | aut |
| author_sort | Demel, Johannes |
| author_variant | j d jd |
| building | Verbundindex |
| bvnumber | BV049496999 |
| classification_rvk | ZN 6575 |
| ctrlnum | (OCoLC)1417066805 (DE-599)DNB1308943903 |
| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | 1. Auflage |
| format | Thesis Book |
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| genre | (DE-588)4113937-9 Hochschulschrift gnd-content |
| genre_facet | Hochschulschrift |
| id | DE-604.BV049496999 |
| illustrated | Illustrated |
| index_date | 2024-07-03T23:20:36Z |
| indexdate | 2024-07-20T08:34:46Z |
| institution | BVB |
| institution_GND | (DE-588)1064118135 |
| isbn | 9783844093070 3844093079 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-034842212 |
| oclc_num | 1417066805 |
| open_access_boolean | |
| owner | DE-83 |
| owner_facet | DE-83 |
| physical | VIII, 235 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 324 g |
| publishDate | 2023 |
| publishDateSearch | 2023 |
| publishDateSort | 2023 |
| publisher | Shaker Verlag |
| record_format | marc |
| series | Dissertationen aus dem Arbeitsbereich Nachrichtentechnik der Universität Bremen |
| series2 | Dissertationen aus dem Arbeitsbereich Nachrichtentechnik der Universität Bremen |
| spelling | Demel, Johannes aut Software radio systems engineering for URLLC Industrie 4.0 applications Johannes Demel Düren Shaker Verlag 2023 VIII, 235 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 324 g txt rdacontent n rdamedia nc rdacarrier Dissertationen aus dem Arbeitsbereich Nachrichtentechnik der Universität Bremen 13 Dissertation Universität Bremen 2023 Datenübertragung (DE-588)4011150-7 gnd rswk-swf Reduktion (DE-588)4177306-8 gnd rswk-swf Machine to Machine (DE-588)1076175724 gnd rswk-swf Industrie 4.0 (DE-588)1072179776 gnd rswk-swf Latenzzeit Informatik (DE-588)4504941-5 gnd rswk-swf Zuverlässigkeit (DE-588)4059245-5 gnd rswk-swf Funkübertragung (DE-588)4018941-7 gnd rswk-swf 5G (DE-588)1188755676 gnd rswk-swf 5G URLLC Industrie 4.0 Industrial Radio SDR Software Reliability Latency (DE-588)4113937-9 Hochschulschrift gnd-content Industrie 4.0 (DE-588)1072179776 s Funkübertragung (DE-588)4018941-7 s Machine to Machine (DE-588)1076175724 s Datenübertragung (DE-588)4011150-7 s 5G (DE-588)1188755676 s Latenzzeit Informatik (DE-588)4504941-5 s Reduktion (DE-588)4177306-8 s Zuverlässigkeit (DE-588)4059245-5 s DE-604 Dissertationen aus dem Arbeitsbereich Nachrichtentechnik der Universität Bremen 13 (DE-604)BV043458196 13 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034842212&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Demel, Johannes Software radio systems engineering for URLLC Industrie 4.0 applications Dissertationen aus dem Arbeitsbereich Nachrichtentechnik der Universität Bremen Datenübertragung (DE-588)4011150-7 gnd Reduktion (DE-588)4177306-8 gnd Machine to Machine (DE-588)1076175724 gnd Industrie 4.0 (DE-588)1072179776 gnd Latenzzeit Informatik (DE-588)4504941-5 gnd Zuverlässigkeit (DE-588)4059245-5 gnd Funkübertragung (DE-588)4018941-7 gnd 5G (DE-588)1188755676 gnd |
| subject_GND | (DE-588)4011150-7 (DE-588)4177306-8 (DE-588)1076175724 (DE-588)1072179776 (DE-588)4504941-5 (DE-588)4059245-5 (DE-588)4018941-7 (DE-588)1188755676 (DE-588)4113937-9 |
| title | Software radio systems engineering for URLLC Industrie 4.0 applications |
| title_auth | Software radio systems engineering for URLLC Industrie 4.0 applications |
| title_exact_search | Software radio systems engineering for URLLC Industrie 4.0 applications |
| title_exact_search_txtP | Software Radio Systems Engineering for URLLC Industrie 4.0 Applications |
| title_full | Software radio systems engineering for URLLC Industrie 4.0 applications Johannes Demel |
| title_fullStr | Software radio systems engineering for URLLC Industrie 4.0 applications Johannes Demel |
| title_full_unstemmed | Software radio systems engineering for URLLC Industrie 4.0 applications Johannes Demel |
| title_short | Software radio systems engineering for URLLC Industrie 4.0 applications |
| title_sort | software radio systems engineering for urllc industrie 4 0 applications |
| topic | Datenübertragung (DE-588)4011150-7 gnd Reduktion (DE-588)4177306-8 gnd Machine to Machine (DE-588)1076175724 gnd Industrie 4.0 (DE-588)1072179776 gnd Latenzzeit Informatik (DE-588)4504941-5 gnd Zuverlässigkeit (DE-588)4059245-5 gnd Funkübertragung (DE-588)4018941-7 gnd 5G (DE-588)1188755676 gnd |
| topic_facet | Datenübertragung Reduktion Machine to Machine Industrie 4.0 Latenzzeit Informatik Zuverlässigkeit Funkübertragung 5G Hochschulschrift |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034842212&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV043458196 |
| work_keys_str_mv | AT demeljohannes softwareradiosystemsengineeringforurllcindustrie40applications |