Coverart for item
The Resource 5G LTE narrow-band Internet of Things, Hossam Fattah

5G LTE narrow-band Internet of Things, Hossam Fattah

Label
5G LTE narrow-band Internet of Things
Title
5G LTE narrow-band Internet of Things
Statement of responsibility
Hossam Fattah
Creator
Author
Subject
Language
eng
Cataloging source
NLE
http://library.link/vocab/creatorName
Fattah, Hossam
Dewey number
004.678
Illustrations
illustrations
Index
no index present
Literary form
non fiction
Nature of contents
dictionaries
http://library.link/vocab/subjectName
  • Internet of things
  • Wireless communication systems
Label
5G LTE narrow-band Internet of Things, Hossam Fattah
Instantiates
Publication
Note
Internet of Things -- 4G and 5G Systems -- Radio Resource Control Sublayer -- Packet Data Convergence Protocol Sublayer -- Radio Link Control Sublayer -- Medium Access Control Sublayer -- Physical Sublayer -- Quality of Service Architecture -- Use Cases and Deployment
Carrier category
online resource
Carrier MARC source
rdacarrier
Content category
  • text
  • still image
Content type MARC source
  • rdacontent
  • rdacontent
Contents
  • How to read this book
  • Packet Data Convergence Protocol Sublayer
  • 4.1.
  • PDCP Architecture
  • 4.2.
  • RRC Configuration Parameters
  • 4.3.
  • PDCP Entity
  • 4.4.
  • Ciphering and Deciphering
  • 4.5.
  • 2.
  • Integrity Protection and Verification
  • 4.6.
  • Header Compression and Decompression
  • 4.7.
  • PDCP Transmission
  • 4.7.1.
  • Data and signalling radio bearer transmission on uplink
  • 4.8.
  • PDCP Reception
  • 4.8.1.
  • 4G and 5G Systems
  • Data radio bearer reception on downlink RLCAM
  • 4.8.2.
  • Data radio bearer reception on downlink RLCUM
  • 4.8.3.
  • Signalling radio bearer reception on downlink
  • 5.
  • Radio Link Control Sublayer
  • 5.1.
  • RLC Architecture
  • 5.2.
  • 2.1.
  • RRC Configuration Parameters
  • 5.3.
  • RLC Entity
  • 5.3.1.
  • Transparent mode
  • 5.3.2.
  • Unacknowledgement mode
  • 5.3.3.
  • Acknowledgement mode
  • 5.4.
  • LTE History
  • RLC PDU Format
  • 5.5.
  • RLC Transmission and Reception
  • 5.5.1.
  • RLC TM
  • 5.5.2.
  • RLC UM
  • 5.5.3.
  • Example of an RLC UM transmitter and receiver
  • 5.5.4.
  • 2.2.
  • RLC AM transmitting side
  • 5.5.5.
  • RLC AM retransmitting side
  • 5.5.6.
  • RLC AM transmitting side for polling RLC STATUS PDU
  • 5.5.7.
  • RLC AM receive side
  • 5.5.8.
  • RLC STATUS PDU transmission by receive side
  • 5.5.9.
  • 5G Narrowband Internet of Things
  • RLC SDU discard
  • 5.5.10.
  • Example of an RLC AM transmitter and receiver
  • 6.
  • Medium Access Control Sublayer
  • 6.1.
  • MAC Architecture
  • 6.2.
  • RRC Configuration Parameters
  • 6.3.
  • 2.3.
  • MAC Procedures
  • 6.3.1.
  • Random access procedure
  • 6.3.2.
  • Random access exchange
  • 6.3.3.
  • Contention resolution
  • 6.3.4.
  • Timing advance command
  • 6.4.
  • NB-IoT Applications and Scenarios
  • Data Transfer
  • 6.4.1.
  • Downlink data reception
  • 6.4.2.
  • Uplink data transmission
  • 6.5.
  • Discontinuous Reception
  • 6.6.
  • MAC PDU Assembly and Multiplexing
  • 6.6.1.
  • 2.4.
  • Static scheduler
  • 6.6.2.
  • Buffer status report
  • 6.6.3.
  • Scheduling request
  • 6.6.4.
  • C-RNTI MAC control element
  • 6.6.5.
  • MAC PDU format
  • 7.
  • Machine generated contents note:
  • Massive Number of Low-Throughput Devices
  • Physical Sublayer
  • 7.1.
  • RRC Configuration Parameters
  • 7.2.
  • FDD Frame Structure
  • 7.3.
  • Channel Frequency Band
  • 7.4.
  • Carrier Frequency
  • 7.5.
  • 2.5.
  • Downlink and Uplink Channel Frequency Separation
  • 7.6.
  • Carrier Frequency Raster
  • 7.7.
  • Channel and Transmission Bandwidth
  • 7.8.
  • Mapping of Physical Channels
  • 7.9.
  • Physical Cell ID (PHYIDCELL)
  • 7.10.
  • Longer Battery Lifetime
  • Downlink Physical Channels and Structure
  • 7.10.1.
  • Downlink transmission scheme OFDM
  • 7.10.2.
  • Resource grid
  • 7.10.3.
  • Primary and secondary synchronization signals
  • 7.10.4.
  • Reference and cell-specific reference signals
  • 7.10.5.
  • 2.6.
  • Downlink power control
  • 7.10.6.
  • Modulation schemes
  • 7.10.7.
  • NPBCH
  • 7.10.8.
  • NPDSCH
  • 7.10.8.1.
  • CRC Calculation
  • 7.10.8.2.
  • Low Latency and Data Reporting
  • Convolutional Coding
  • 7.10.8.3.
  • Rate Matching
  • 7.10.8.4.
  • Scrambling
  • 7.10.8.5.
  • Modulation
  • 7.10.8.6.
  • Layer Mapping
  • 7.10.8.7.
  • 2.7.
  • Precoding
  • 7.10.8.8.
  • Mapping to Physical Resources
  • 7.10.8.9.
  • NPDSCH Position and Mapping
  • 7.10.9.
  • NPDCCH
  • 7.10.9.1.
  • CRC Calculation
  • 7.10.9.2.
  • LTE NB-IoT Protocol Stack and Architecture
  • Convolutional Coding
  • 7.10.9.3.
  • Rate Matching
  • 7.10.9.4.
  • Scrambling
  • 7.10.9.5.
  • Modulation
  • 7.10.9.6.
  • Layer Mapping
  • 7.10.9.7.
  • 2.8.
  • Precoding
  • 7.10.9.8.
  • Mapping to Resource Element
  • 7.10.9.9.
  • NPDCCH Position and Mapping
  • 7.10.9.10.
  • RRC Information for DCI Processing
  • 7.10.9.11.
  • DCI Format N0
  • 7.10.9.12.
  • NB-IoT Modes of Operation
  • DCI Format N0 Example
  • 7.10.9.13.
  • DCI Format N1
  • 7.10.9.14.
  • DCI Format N2
  • 7.10.9.15.
  • Spatial Multiplexing and Transmit Diversity
  • 7.11.
  • Uplink Physical Channels and Structure
  • 7.11.1.
  • 3.
  • Uplink transmission scheme SC-FDMA
  • 7.11.2.
  • Resource grid
  • 7.11.3.
  • NPUSCH
  • 7.11.3.1.
  • CRC Calculation
  • 7.11.3.2.
  • Turbo Coding
  • 7.11.3.3.
  • 1.
  • Radio Resource Control Sublayer
  • Rate Matching
  • 7.11.3.4.
  • Data and ACK/NACK Multiplexing on NPUSCH
  • 7.11.3.5.
  • Channel Block Interleaver
  • 7.11.3.6.
  • Scrambling
  • 7.11.3.7.
  • Modulation
  • 7.11.3.8.
  • 3.1.
  • Layer Mapping
  • 7.11.3.9.
  • Transform Precoding
  • 7.11.3.10.
  • Mapping to Physical Resources
  • 7.11.4.
  • NPRACH
  • 7.11.5.
  • Demodulation reference signal
  • 7.11.6.
  • Radio Resource Control Sublayer Capability
  • Uplink power control
  • 7.12.
  • PHY Sublayer Data Rate
  • 8.
  • Quality of Service Architecture
  • 8.1.
  • NB-IoT Quality of Service
  • 8.2.
  • Characteristics of QCI
  • 8.3.
  • 3.2.
  • Quality of Service for UE Using CIoT EPS Optimization
  • 8.4.
  • QoS Challenges for NB-IoT
  • 9.
  • Use Cases and Deployment
  • 9.1.
  • NB-IoT Devices
  • 9.1.1.
  • Sensors
  • 9.1.2.
  • Signalling and Data Radio Bearer
  • Actuators
  • 9.2.
  • Smart Parking
  • 9.3.
  • Smart City
  • 9.4.
  • Smart Home
  • 9.5.
  • Message Queue Telemetry Transport (MQTT)
  • 9.5.1.
  • 3.3.
  • Publish/subscribe model
  • 9.5.2.
  • Topic and subscription
  • 9.5.3.
  • Retained messages
  • 9.5.4.
  • Will
  • 9.5.5.
  • Quality of service levels
  • 9.5.6.
  • RRC Modes of Operation
  • MQTT telemetry
  • 9.6.
  • NB-IoT Baseline Deployment
  • 9.6.1.
  • Datapath
  • 9.6.2.
  • Control path
  • 9.6.3.
  • Deployment bands
  • 9.6.4.
  • 3.4.
  • Deployment modes
  • 9.6.5.
  • Coverage enhancement
  • 9.6.6.
  • Power class
  • 9.6.7.
  • Quality of service
  • 9.7.
  • Mobile Operator Deployment
  • eNodeB Identities
  • 3.5.
  • Internet of Things
  • RRC PDU Format
  • 3.6.
  • UE Behavior in IDLE Mode
  • 3.6.1.
  • PLMN selection
  • 3.6.2.
  • Cell selection
  • 3.6.3.
  • Cell reselection
  • 3.6.4.
  • 1.1.
  • Suitable cell
  • 3.6.5.
  • Triggers for cell reselection for inter-frequency and intra-frequency cells
  • 3.6.6.
  • Cell reselection for inter-frequency and intra-frequency cells
  • 3.7.
  • RRC Procedures and Behavior in CONNECTED Mode
  • 3.7.1.
  • Master information block (MIB-NB)
  • 3.7.2.
  • Introduction
  • System information block type 1 (SIB1-NB)
  • 3.7.3.
  • Other system information block
  • 3.7.4.
  • System information modification period
  • 3.7.5.
  • Paging
  • 3.7.6.
  • RRC direct indication information
  • 3.7.7.
  • 1.1.1.
  • RRC connection establishment
  • 3.7.8.
  • Initial security activation
  • 3.7.9.
  • RRC connection resume
  • 3.7.10.
  • RRC connection reconfiguration
  • 3.7.11.
  • RRC connection re-establishment
  • 3.7.12.
  • Outline of this book
  • RRC connection release
  • 3.7.13.
  • DL information transfer
  • 3.7.14.
  • UL information transfer
  • 3.7.15.
  • UE capability transfer
  • 3.7.16.
  • Radio link failure
  • 3.8.
  • 1.1.2.
  • Logical Channels
  • 3.9.
  • Multi-carrier Support
  • 3.10.
  • Control-Plane and Data-Plane Cellular IoT (CIoT) Optimization
  • 3.11.
  • Power Saving Mode (PSM)
  • 3.12.
  • Discontinuous Reception (DRX) in IDLE Mode
  • 4.
Control code
on1053861684
Edition
1st
Extent
1 online resource
Form of item
online
Isbn
9780429455056
Isbn Type
(ebook)
Media category
computer
Media MARC source
rdamedia
Other control number
10.1201/9780429455056
Other physical details
illustrations (black and white)
http://library.link/vocab/ext/overdrive/overdriveId
9780429847578
Specific material designation
remote
System control number
(OCoLC)1053861684
Label
5G LTE narrow-band Internet of Things, Hossam Fattah
Publication
Note
Internet of Things -- 4G and 5G Systems -- Radio Resource Control Sublayer -- Packet Data Convergence Protocol Sublayer -- Radio Link Control Sublayer -- Medium Access Control Sublayer -- Physical Sublayer -- Quality of Service Architecture -- Use Cases and Deployment
Carrier category
online resource
Carrier MARC source
rdacarrier
Content category
  • text
  • still image
Content type MARC source
  • rdacontent
  • rdacontent
Contents
  • How to read this book
  • Packet Data Convergence Protocol Sublayer
  • 4.1.
  • PDCP Architecture
  • 4.2.
  • RRC Configuration Parameters
  • 4.3.
  • PDCP Entity
  • 4.4.
  • Ciphering and Deciphering
  • 4.5.
  • 2.
  • Integrity Protection and Verification
  • 4.6.
  • Header Compression and Decompression
  • 4.7.
  • PDCP Transmission
  • 4.7.1.
  • Data and signalling radio bearer transmission on uplink
  • 4.8.
  • PDCP Reception
  • 4.8.1.
  • 4G and 5G Systems
  • Data radio bearer reception on downlink RLCAM
  • 4.8.2.
  • Data radio bearer reception on downlink RLCUM
  • 4.8.3.
  • Signalling radio bearer reception on downlink
  • 5.
  • Radio Link Control Sublayer
  • 5.1.
  • RLC Architecture
  • 5.2.
  • 2.1.
  • RRC Configuration Parameters
  • 5.3.
  • RLC Entity
  • 5.3.1.
  • Transparent mode
  • 5.3.2.
  • Unacknowledgement mode
  • 5.3.3.
  • Acknowledgement mode
  • 5.4.
  • LTE History
  • RLC PDU Format
  • 5.5.
  • RLC Transmission and Reception
  • 5.5.1.
  • RLC TM
  • 5.5.2.
  • RLC UM
  • 5.5.3.
  • Example of an RLC UM transmitter and receiver
  • 5.5.4.
  • 2.2.
  • RLC AM transmitting side
  • 5.5.5.
  • RLC AM retransmitting side
  • 5.5.6.
  • RLC AM transmitting side for polling RLC STATUS PDU
  • 5.5.7.
  • RLC AM receive side
  • 5.5.8.
  • RLC STATUS PDU transmission by receive side
  • 5.5.9.
  • 5G Narrowband Internet of Things
  • RLC SDU discard
  • 5.5.10.
  • Example of an RLC AM transmitter and receiver
  • 6.
  • Medium Access Control Sublayer
  • 6.1.
  • MAC Architecture
  • 6.2.
  • RRC Configuration Parameters
  • 6.3.
  • 2.3.
  • MAC Procedures
  • 6.3.1.
  • Random access procedure
  • 6.3.2.
  • Random access exchange
  • 6.3.3.
  • Contention resolution
  • 6.3.4.
  • Timing advance command
  • 6.4.
  • NB-IoT Applications and Scenarios
  • Data Transfer
  • 6.4.1.
  • Downlink data reception
  • 6.4.2.
  • Uplink data transmission
  • 6.5.
  • Discontinuous Reception
  • 6.6.
  • MAC PDU Assembly and Multiplexing
  • 6.6.1.
  • 2.4.
  • Static scheduler
  • 6.6.2.
  • Buffer status report
  • 6.6.3.
  • Scheduling request
  • 6.6.4.
  • C-RNTI MAC control element
  • 6.6.5.
  • MAC PDU format
  • 7.
  • Machine generated contents note:
  • Massive Number of Low-Throughput Devices
  • Physical Sublayer
  • 7.1.
  • RRC Configuration Parameters
  • 7.2.
  • FDD Frame Structure
  • 7.3.
  • Channel Frequency Band
  • 7.4.
  • Carrier Frequency
  • 7.5.
  • 2.5.
  • Downlink and Uplink Channel Frequency Separation
  • 7.6.
  • Carrier Frequency Raster
  • 7.7.
  • Channel and Transmission Bandwidth
  • 7.8.
  • Mapping of Physical Channels
  • 7.9.
  • Physical Cell ID (PHYIDCELL)
  • 7.10.
  • Longer Battery Lifetime
  • Downlink Physical Channels and Structure
  • 7.10.1.
  • Downlink transmission scheme OFDM
  • 7.10.2.
  • Resource grid
  • 7.10.3.
  • Primary and secondary synchronization signals
  • 7.10.4.
  • Reference and cell-specific reference signals
  • 7.10.5.
  • 2.6.
  • Downlink power control
  • 7.10.6.
  • Modulation schemes
  • 7.10.7.
  • NPBCH
  • 7.10.8.
  • NPDSCH
  • 7.10.8.1.
  • CRC Calculation
  • 7.10.8.2.
  • Low Latency and Data Reporting
  • Convolutional Coding
  • 7.10.8.3.
  • Rate Matching
  • 7.10.8.4.
  • Scrambling
  • 7.10.8.5.
  • Modulation
  • 7.10.8.6.
  • Layer Mapping
  • 7.10.8.7.
  • 2.7.
  • Precoding
  • 7.10.8.8.
  • Mapping to Physical Resources
  • 7.10.8.9.
  • NPDSCH Position and Mapping
  • 7.10.9.
  • NPDCCH
  • 7.10.9.1.
  • CRC Calculation
  • 7.10.9.2.
  • LTE NB-IoT Protocol Stack and Architecture
  • Convolutional Coding
  • 7.10.9.3.
  • Rate Matching
  • 7.10.9.4.
  • Scrambling
  • 7.10.9.5.
  • Modulation
  • 7.10.9.6.
  • Layer Mapping
  • 7.10.9.7.
  • 2.8.
  • Precoding
  • 7.10.9.8.
  • Mapping to Resource Element
  • 7.10.9.9.
  • NPDCCH Position and Mapping
  • 7.10.9.10.
  • RRC Information for DCI Processing
  • 7.10.9.11.
  • DCI Format N0
  • 7.10.9.12.
  • NB-IoT Modes of Operation
  • DCI Format N0 Example
  • 7.10.9.13.
  • DCI Format N1
  • 7.10.9.14.
  • DCI Format N2
  • 7.10.9.15.
  • Spatial Multiplexing and Transmit Diversity
  • 7.11.
  • Uplink Physical Channels and Structure
  • 7.11.1.
  • 3.
  • Uplink transmission scheme SC-FDMA
  • 7.11.2.
  • Resource grid
  • 7.11.3.
  • NPUSCH
  • 7.11.3.1.
  • CRC Calculation
  • 7.11.3.2.
  • Turbo Coding
  • 7.11.3.3.
  • 1.
  • Radio Resource Control Sublayer
  • Rate Matching
  • 7.11.3.4.
  • Data and ACK/NACK Multiplexing on NPUSCH
  • 7.11.3.5.
  • Channel Block Interleaver
  • 7.11.3.6.
  • Scrambling
  • 7.11.3.7.
  • Modulation
  • 7.11.3.8.
  • 3.1.
  • Layer Mapping
  • 7.11.3.9.
  • Transform Precoding
  • 7.11.3.10.
  • Mapping to Physical Resources
  • 7.11.4.
  • NPRACH
  • 7.11.5.
  • Demodulation reference signal
  • 7.11.6.
  • Radio Resource Control Sublayer Capability
  • Uplink power control
  • 7.12.
  • PHY Sublayer Data Rate
  • 8.
  • Quality of Service Architecture
  • 8.1.
  • NB-IoT Quality of Service
  • 8.2.
  • Characteristics of QCI
  • 8.3.
  • 3.2.
  • Quality of Service for UE Using CIoT EPS Optimization
  • 8.4.
  • QoS Challenges for NB-IoT
  • 9.
  • Use Cases and Deployment
  • 9.1.
  • NB-IoT Devices
  • 9.1.1.
  • Sensors
  • 9.1.2.
  • Signalling and Data Radio Bearer
  • Actuators
  • 9.2.
  • Smart Parking
  • 9.3.
  • Smart City
  • 9.4.
  • Smart Home
  • 9.5.
  • Message Queue Telemetry Transport (MQTT)
  • 9.5.1.
  • 3.3.
  • Publish/subscribe model
  • 9.5.2.
  • Topic and subscription
  • 9.5.3.
  • Retained messages
  • 9.5.4.
  • Will
  • 9.5.5.
  • Quality of service levels
  • 9.5.6.
  • RRC Modes of Operation
  • MQTT telemetry
  • 9.6.
  • NB-IoT Baseline Deployment
  • 9.6.1.
  • Datapath
  • 9.6.2.
  • Control path
  • 9.6.3.
  • Deployment bands
  • 9.6.4.
  • 3.4.
  • Deployment modes
  • 9.6.5.
  • Coverage enhancement
  • 9.6.6.
  • Power class
  • 9.6.7.
  • Quality of service
  • 9.7.
  • Mobile Operator Deployment
  • eNodeB Identities
  • 3.5.
  • Internet of Things
  • RRC PDU Format
  • 3.6.
  • UE Behavior in IDLE Mode
  • 3.6.1.
  • PLMN selection
  • 3.6.2.
  • Cell selection
  • 3.6.3.
  • Cell reselection
  • 3.6.4.
  • 1.1.
  • Suitable cell
  • 3.6.5.
  • Triggers for cell reselection for inter-frequency and intra-frequency cells
  • 3.6.6.
  • Cell reselection for inter-frequency and intra-frequency cells
  • 3.7.
  • RRC Procedures and Behavior in CONNECTED Mode
  • 3.7.1.
  • Master information block (MIB-NB)
  • 3.7.2.
  • Introduction
  • System information block type 1 (SIB1-NB)
  • 3.7.3.
  • Other system information block
  • 3.7.4.
  • System information modification period
  • 3.7.5.
  • Paging
  • 3.7.6.
  • RRC direct indication information
  • 3.7.7.
  • 1.1.1.
  • RRC connection establishment
  • 3.7.8.
  • Initial security activation
  • 3.7.9.
  • RRC connection resume
  • 3.7.10.
  • RRC connection reconfiguration
  • 3.7.11.
  • RRC connection re-establishment
  • 3.7.12.
  • Outline of this book
  • RRC connection release
  • 3.7.13.
  • DL information transfer
  • 3.7.14.
  • UL information transfer
  • 3.7.15.
  • UE capability transfer
  • 3.7.16.
  • Radio link failure
  • 3.8.
  • 1.1.2.
  • Logical Channels
  • 3.9.
  • Multi-carrier Support
  • 3.10.
  • Control-Plane and Data-Plane Cellular IoT (CIoT) Optimization
  • 3.11.
  • Power Saving Mode (PSM)
  • 3.12.
  • Discontinuous Reception (DRX) in IDLE Mode
  • 4.
Control code
on1053861684
Edition
1st
Extent
1 online resource
Form of item
online
Isbn
9780429455056
Isbn Type
(ebook)
Media category
computer
Media MARC source
rdamedia
Other control number
10.1201/9780429455056
Other physical details
illustrations (black and white)
http://library.link/vocab/ext/overdrive/overdriveId
9780429847578
Specific material designation
remote
System control number
(OCoLC)1053861684

Library Locations

    • InternetBorrow it
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