Telematik_TA_01_2024.pdf

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Telematics – Technology and Applications
uni-siegen.de

Summer Term 2024
Unit 1
Dr Kai Hahn

uni-siegen.de
Activities 2024

Lectures Summer 2024
Medizintechnik
Medizintechnik-Vertiefung
Medizinische Bildverarbeitung
Telematik Technologie/Anwendungen
Seminar Technikgeschichte Brück Hahn Wahl

Research
Intelligent Systems for Medical Applications
Medical Informatics

Grünewald Schmidt Schäfer Mielke

Wunderlich Eifler

Telematik Technologien und Anwendungen 2024 2
Contact

Dr Kai Hahn
Room: AE C203
Tel. (0271 ) 740 2472
Email: [email protected]
Consultations at any time by arrangement (also virtually)

Telematik Technologien und Anwendungen 2024 3
Technical comments

Lecture room AE A103
Tuesday 08.30 - 10.00
Exceptionally, on wednesday 08.30 - 10.00 h
Slides as PDF-Files
On Moodle Server
Password: juli2024
Exercises: Semester accompanying
Approximately every 14 days WED 8.30 - 10.00 h room AE A103
Starting 24APR2024
eKlausur (qExam) as exam at the end

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Structure of the Lecture

Telematics Technology & Applications
(Spring 2024)

Telematics Multimedia
(Fall 2024)

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Foundations of telematics
(Telematics Technologies & Applications Summer 2024)

Technical Infrastructure Physiological Conditions
Services & Protocols
Computer networks GUI
Hardware Ergonomics
Sensors Usage Models
Telematics Man / Machine
E-Commerce T&A
Markets/Marketing Transport Telematics
Payment Systems
Telemedicine Toll
Security
Social Aspects Navigation
Legal Issues Requirements Steering
Law Telematik- Rail / Flight
Economy Infrastruktur
Social Policy Standards
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Telematics Multimedia (Fall 2024)

Audio data
Psychological CD
and physiological MIDI
basics MP3
Sound, Ear
Light, Eye, Audio and video basics
Color Telematics
Scripture Multimedia Television
Psycho Acoustics

Data transmission
Image and video data
Streaming
DVB JPEG, GIF
MPEG

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Structure of the Lecture
Unit Date Chapter Topic
Fourier transformation, digitization, sampling theorem, signal-to-
Introduction
1 09.04.24 noise distance coding, terms, network topologies, communication
Communication basics
architectures, services/protocols
Models for the digital Layer Architecture ISO/OSI vs. TCP/IP, physical layer
2 16.04.24
Communication Data link layer, Ethernet Cable, mediation
Transmission media, bus learn
3 23.04.24 Coupling Elements, Status, Ethernet cable, Internet working
network between systems
4 30.04.24 Internet, IP Security IPStack, IPv6, Attacks, security, firewalls, cryptography
5 07.05.24 Mobile and wireless Systems Mobile IP, WLAN, Bluetooth
6 14.05.24 Mobile Communication Wide Area Networks, Analog networks, GSM
7 28.05.24 Mobile Communication UMTS, LTE, 5G, LPWAN, IoT
8 04.06.24 Electronic Commerce Electronic Markets / Marketing, M-Commerce /Payment Systems
Electronic Commerce/
9 11.06.24 Technical Infrastructure, RFID in retailing and Management
Transport Telematics
Transport Telematics Technologies (navigation and localization), Individual
10 18.06.24
transport Applications of public transport, goods transport
11 25.06.24 Telematics in medicine Telematic Infrastructure in Germany, The basic technologies

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Definition of telematics

Term used since 1978 - Part of computer science and electrical engineering

Telematik (zusammengesetzt aus Telekommunikation und Informatik) ist eine Technik, welche die
Bereiche Telekommunikation und Informatik verknüpft. Telematik ist also das Mittel der
Informationsverknüpfung von mindestens zwei Informationssystemen mit Hilfe eines
Telekommunikationssystems sowie einer speziellen Datenverarbeitung. Der Begriff wurde von Nora und
Minc (1978) im Rahmen ihrer Studie zur Informatisierung der Gesellschaft geprägt. … (de.wikipedia.org,
2022)

Telematics is an interdisciplinary field that encompasses telecommunications, vehicular technologies (road
transportation, road safety) electrical engineering (sensors, instrumentation, wireless communications,
etc.), and computer science (multimedia, Internet, etc.). … (en.wikipedia.org, 2022)

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Important technical, historical developments in Telematics
1844 Telegraph (Morse) 1966 Fiber Optic Cables
1858 Transatlantic Cabel (Field) 1972 Microcontrollers (digital data processing)
1876 Telephone (Reis, Bell) 1988 ISDN
1887 Electromagnetic Waves (Hertz) 1992 GSM
1895 Radio transmission (Marconi) 1993 WWW
1923 (Radio) Broadcasting 2000 WiFi /Wireless LAN
1930 Multiplexing 2002 SIP (VOIP)
1935 Television 2003 UMTS
1941 Binary Computer 2007 Smartphones (Apple iPhone)
1948 Transistor 2011 LTE
1958 Integrated Circuits 2013 Cloud Computing
1960 Pulse Code Modulation 2014 C2C, M2M, (Industry 4.0)
1962 Laser 2016 Internet of Things
1964 Satellite Communications 2020 5G, AI
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10
In 1967: Vision of the year 2200

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50 years of mobile phones

Marty Cooper, the inventor of first
commercial mobile phone
(Motorola, 1973)

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In 1968: Vision of the year 2001 2001: A Space Odyssey (Stanley Kubrick)

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StarTrek Gadgets 2200 (unsaleable nowadays!?)

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Rome: Audience (Pope Benedict)
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Rome: Audience (Pope Francis)
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„Telematics devices“ once …

Telematik Technologien und Anwendungen 2024 17... and today?

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Drivers of the information age in 2024
Micro-electronics
Hardware to send, receive, process the data
Communication technology and networks
Hardware and software to encode, encrypt, transmit...
Broadband access to data networks (radio, fiber …)
Mobility (real and virtual)
Mobile Communication
Ubiquitous Computing (IoT, Digital Twins)
Social, economic, legal and cultural factors
Globalisation (networked economy, US vs. China)
Education, access, language, mindset
Wars in Europe, Middle East
Legal aspects (e.g. data security, copyright, trade, criminal, competition …)

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Key figures of micro-electronics (Moore‘s law)

Integrated Circuits (since 1958)
SIA (Semiconductor Industry Association)
Int. Technology Roadmap For
Semi-Conductors
1966 3 transistors (4100 3x-NOR Gate)
AGP (Apollo Guidance Computer)
1978 29.000 Transistors
Intel 8086 (For example in the IBM-PC from 1981)
2015 4.300.000.000 Transistors
Intel's 15-core Xeon Ivy Bridge-EX
2023 19.000.000.000 Transistors
Apple A17 (3nm)

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Key figures of micro-electronics (Moore‘s law 1965)

Integrated Circuits (since 1958)
SIA (Semiconductor Industry Association)
Int. Technology Roadmap For
Semi-Conductors
1966 3 transistors (4100 3x-NOR Gate)
AGP (Apollo Guidance Computer)
1978 29.000 Transistors
Intel 8086 (For example in the IBM-PC from 1981)
2015 4.300.000.000 Transistors
Intel's 15-core Xeon Ivy Bridge-EX
2023 19.000.000.000 Transistors
Apple A17 (3nm)

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Key figures of micro-electronics (Moore‘s law 1965)

Integrated Circuits (since 1958)
SIA (Semiconductor Industry Association)
Int. Technology Roadmap For
Semi-Conductors
1966 3 transistors (4100 3x-NOR Gate)
AGP (Apollo Guidance Computer)
1978 29.000 Transistors
Intel 8086 (For example in the IBM-PC from 1981)
2015 4.300.000.000 Transistors
Intel's 15-core Xeon Ivy Bridge-EX
2023 19.000.000.000 Transistors
Apple A17 (3nm)

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Key figures of micro-electronics (Moore‘s law 1965)

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Communication infrastructure in Germany
Housholds
2022: approximately 41 Mio
Cable Customers
2022: approximately 17 Mio
(40% of households)
Land line network connections
2021: 38,000,000
Fibre connections (FTTH/FTTB)
2022: 12,3 Mio
Mobile Connections
2021: Approx. 150,000,000
Internet connections
Households with Internet-Access
2022: approximately 40 Mio

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Internet: Growth and Development

Internet host computer
(in the internet via IP address addressable)
1969 “4“
1974 62
1979 188
1984 1024
1989 80,000
1994 3.800.000
2020 > 3,400,000,000

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Broadbandseach.com, 2022
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Broadbandseach.com, 2022
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Mobile Communication
- Subscribers worldwide

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Data/Information/Communication

Data
Formal representation of concepts, ideas, facts, in an appropriate manner for
the processing of human/machines
(Data representations: language, text, codes...)
Information
Meaning (semantics) of data provided by the people on the basis of
conventions
Information relates to human skills
Data can be processed by the human/machine.
Information can only be won by people.
Communication
Narrow: exchange of data between people
(Data) Communication: A transfer of digital data between
telecommunications equipment

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Data vs. Signals

Signals are the physical representation of data by deterministic change of values of physical
variables to transfer data through time and space
Real representation of abstract content
Data ≠ signals
Presentation Presentation
Conventions Conventions

Mental Models Data Signals

Abstract World Physical World

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Information Technology vs. Telematics Technology
Information Technology
Scientific/technical issues of "Information Technology"
Focus on signal processing

Signals Information
Telematics
Focus on data concept
Two-stage abstraction of signals via data to information
Signal Interpretation Data interpretation

Signals Data Information

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Computer networks: Foundation of Digital Communication
Basic infrastructure for digital communication
Digitalisation of all means of communication and data (text, image, language, music,
video..)
Modern telecommunications networks are computer networks

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A few basic technical terms

Topologies
Connections, networks, logical topologies
Communication events
Communication partners, transfer procedures, usage direction, delivery sequence
Time and frequency range
Fourier transformation
Digitisation
Sampling Theorem

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Topologies

Spatial/organizational/logical structure of a network
Network Topology
How is the network structured
Connection Topology
How many components are connected via a transmission medium
Logical Topology
How is the network divided into logical subsets
(administrative units...)

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Connection topologies

Point-to-point connections

Multi-point connections
Symmetrical
Asymmetrical (e.g. point to multi-point)

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Network topologies
Full Meshing
Partial Meshing
Tree
Circle
Bus
Star
Example Telekom (up to 1990)

ZVSt

HVSt
KVSt
OVSt

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Communication events

Criteria:

Participating communication partners

Transmission procedure, interfaces, use the direction

Delivery order/quality

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Communication Partner

Dialogue (Unicast, Anycast)
Data exchange via a point-to-point communication
A B
link
Multicast
(group call) a comm. partner transmits at the same B

time to various (mostly known) communication
A C
partners
Broadcast D

A communication partner transmits at the same time
to many (mostly unknown) partners/receivers (e.g. A

TV, Radio)

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Transmission procedure/ Usage Direction

Serial transmission
Bit by bit per time interval
Parallel transmission
E.g. 8 bits per time interval

Simplex (radio, sensors..)

Duplex (phone)

Half Duplex (talk)

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Delivery order/Quality Classes

Delivery discipline: sequence in comparison to deposit
FIFO
1 2 3 4 5 6 7 8
FIFO prioritized
Random
Quality 7 8 1 2 3 4 5 6
Technical performance
Throughput, bitrate, transmit power...
4 2 7 3 5 6 1 8

Costs
Maintenance, investment, personnel, customer service

Reliability
Failure safety, fault tolerance, fault susceptibility

Security/Protection
Security from eavesdropping, authentication, integrity

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Communication basics

Fourier Tansformation
Digitisation
Sampling Theorem

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Fourier tansformation
Fourier analysis (Joseph M. Baron de Fourier (1768 to 1830))
Procedure for determining the share of individual harmonic vibrations at a given signal
Fourier transformation
Conversion of signals from time (spatial) domain to frequency domain
A(t) is a periodic function of frequency f. A(t) can then be used as a superposition of an infinite number of
harmonic oscillations
with frequencies each representing a multiple of f (harmonics).

∞ ∞
1
A(t) = ∑ F(i)⋅ cos(2π ⋅ (i + 1) f ⋅ t) + ∑G(i) ⋅ sin(2π ⋅ (i + 1) f ⋅ t)
i= 0 4 i= 0
mit
F(i) = 2 f ⋅ ∫ A(t)⋅ cos(2π ⋅ (i + 1) f ⋅ t)dt
und
G(i) = 2 f ⋅ ∫ A(t)⋅ sin(2π ⋅ (i + 1) f ⋅ t)dt

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Fourier tansformation
Sound amplitude of the word "ist„ (Time/Frequency)

FT also to non-periodic functions applicable
(then held a summation integration via a
continuum of frequencies)
All frequency components (expressed by all
the Fourier coefficients) forms Time-Domain

the spectrum of a signal

Frequency-Domain
(Spectrum)

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Analog - Digital
Digitalization of information
1993 3%
2000 50%
2007 94%
Trend to digital signal processing-examples Why
Computing technology Use, processing, distribution, development and playback in
Analog Computer -> Microprocessor similar electronic data processing systems
(one storage medium for all data)
Telephone
ISDN, switching technology, VoIP Digital data can be processed automatically
Data search in digital formats is possible
Mobile Communication Robustness against influences (temperature, radiation,...)
GSM, UMTS, LTE, 5G Error detection and correction
Image and video processing Storage space requirement Is low (compression means)
JPEG, MPEG, H.265 Problems
Real signals (light, sound, heat, power etc.) are analog
Broadcast AD/DA conversion
DAB+, DVB-S, DVB-T, DVB-H
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Signal Classes

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Digitisation

Digitalization consists of two steps
Discretization (sampling): time (spatial) equidistant measurement values of the analog signal
Quantization: representation of the measured values in finite resolution (usually binary integer values,
values are rounded -> Quantisation Errors)
Terms
Resolution
The accuracy of quantization
Specified in bits (16 bits = 65536 different values)
For image data writes resolution usually refers to density of pixels
Sampling Rate
The frequency of sampling

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Digitisation

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Conversion to digital signals

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Sampling Theorem
T0 T1 T2
How often must be sampled
(Sampling frequency)?
Sampling Theorem
( Nyquist- or Shannon theorem):
For a valid reconstruction of an analog
signal from digital data the sampling
rate must be at least twice the highest
frequency occurring in the signal
Subsampling will lead to ambiguities
Oversampling (Oversampling) provides
no information benefit

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Sampling effects

If the sampling rate is not twice as high as the
highest frequency side effects occurs:
Frequency - overlaps (aliasing)
Due to the non-ideal low passes applies in
practice:
FSamp > 2.2 ·FMax

Sampling Frequency for audio
(for sound frequencies up to 20 kHz):
44.1 kHz

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How to be sure about the highest frequency?

Analog preprocessing: signal filtering
Low pass filter

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Measurement in dB

Bel (B) is a named after Alexander Graham Bell
Auxilliary unit of measurement for the identification of levels and dimensions
Comparison of two values (one value with a reference)
Logarithmic size
Applications e.g. in the acoustics (e.g. Sound pressure level), radio frequency or signal processing
(e.g. SNR)
Use of the tenth part of a Bel
(decibels, unit symbol dB) is common
Log10(1) = 0 because 100 = 1
Log10(10) = 1 because 101 = 10
Log10(100) = 2 because 102 = 100

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Signal-to-noise ratio (SNR)
Stochastic noise (statics)
Quantization noise
Finite resolution when digitizing (Digitisation error)
Signal-to-noise distance (signal/noise ratio SNR)
P = Electr. Power
Measurement in dB
R = Electr. Resistance
(foundation is always the power value P, measurable are often the voltages U, U = Electr. Voltage
therefore voltages use the factor 2) I = Electr. Current
𝑈𝑈 𝑈𝑈
𝑃𝑃 = 𝑈𝑈 ⋅ 𝐼𝐼, 𝑅𝑅 = ⇔ 𝐼𝐼 = (𝑂𝑂𝑂𝑂𝑂 𝐿𝐿𝐿𝐿𝐿𝐿)
𝐼𝐼 𝑅𝑅
𝑈𝑈 2
⇒ 𝑃𝑃 =
𝑅𝑅
𝑈𝑈𝑆𝑆2
𝑃𝑃𝑆𝑆 𝑅𝑅 𝑈𝑈𝑆𝑆2 𝑈𝑈𝑆𝑆
𝑆𝑆𝑆𝑆𝑆𝑆(𝑑𝑑𝑑𝑑) = 10 ⋅ log( ) = 10 ⋅ log( 2 ) = 10 ⋅ log( 2 ) = 10 ⋅ log( )2
𝑃𝑃𝑁𝑁 𝑈𝑈𝑁𝑁 𝑈𝑈𝑁𝑁 𝑈𝑈𝑁𝑁
𝑅𝑅
𝑈𝑈𝑆𝑆
= 20 ⋅ log( )
𝑈𝑈𝑁𝑁
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 Signal-to-noise distance / Dynamic range

Each bit resolution is a factor of 2 in the displayable number of levels
and thus improve SNR by approx. 6 dB

E.g. in the case of CD-Audio files: resolution when quantization with 16 bit
(stereo):
SNR or dynamic range = 16 x 6 = appr. 96 dB 20 ⋅ log(2) ≈ 6,0206 ≈6
Why are many sizes (Volume/Sound Pressure, Brightness..) measured in
logarithmic scale?
Human sensory organs also work non-linear (ear, eye)

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 Medizin und Technik:

Der Bachelor-Studiengang „Digital
Biomedical and Health Sciences“

Universität
Prof. Dr. Siegen
rer. nat. Rainer Brück
Lehrstuhl Medizinische Informatik und
Mikrosystementwurf
Am Eichenhang 50
57076 Siegen Telematik Technologien und Anwendungen 2024
Telematik Technologien und Anwendungen 2023
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