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--- Timezone: CEST
Creation date: 2024-04-25
Creation time: 12-47-48
--- Number of references
6
techreport
2014-draft-moskowitz-hip-dex-02
HIP Diet EXchange (DEX)
2014
12
19
draft-moskowitz-hip-dex-02
This document specifies the Host Identity Protocol Diet EXchange (HIP DEX), a variant of the Host Identity Protocol Version 2 (HIPv2). The HIP DEX protocol design aims at reducing the overhead of the employed cryptographic primitives by omitting public-key signatures and hash functions. In doing so, the main goal is to still deliver similar security properties to HIPv2.
The HIP DEX protocol is primarily designed for computation or memory-constrained sensor/actuator devices. Like HIPv2, it is expected to be used together with a suitable security protocol such as the Encapsulated Security Payload (ESP) for the protection of upper layer protocol data. In addition, HIP DEX can also be used as a keying mechanism for security primitives at the MAC layer, e.g., for IEEE 802.15.4 networks.
Work in progress
iotsec; ietf
http://tools.ietf.org/html/draft-moskowitz-hip-dex-02
Online
Internet Engineering Task Force
Internet-Draft
en
RobertMoskowitz
RenéHummen
incollection
2014-tcc-henze-trustpoint
A Trust Point-based Security Architecture for Sensor Data in the Cloud
2014
12
14
77-106
sensorcloud
Online
Krcmar, Helmut and Reussner, Ralf and Rumpe, Bernhard
Springer
Trusted Cloud Computing
978-3-319-12717-0
10.1007/978-3-319-12718-7_6
1
MartinHenze
RenéHummen
RomanMatzutt
KlausWehrle
article
2014-cheng-acta-geodyn-geomater
Use of MEMS accelerometers/inclinometers as a geotechnical monitoring method for ground subsidence
Acta Geodynamica et Geomaterialia
2014
10
8
11
4
1--12
Accelerometer and inclinometer are inertial sensors capable of measuring corresponding magnitude of Earth gravitational field along the direction of each axis. By means of rotation matrices related to inertial navigation methods, the output values of a three-dimensional accelerometer or a two-dimensional inclinometer can be transformed and processed into the azimuth and dip angle of the monitored target. With the rapid growth in development and cost reduction of Micro Electro Mechanical Systems (MEMS) and Wireless Sensor Network (WSN) in recent years, the engineers are able to carry out real-time wireless geotechnical monitoring during construction. In this paper, we set up a one-day measurement implemented by a self- developed wireless MEMS monitoring system on the surface in the construction site of South Hongmei Road super high way tunnel in Shanghai, by making use of rotation matrices in specific ways, the raw data are processed to expressions of three-dimensional normal vectors that represent the change of the ground. After unifying the vectors in the same coordinate system, we conduct a brief ground settlement analysis by means of an evaluation of the dip angles in the cross section and the azimuths of the sensor nodes.
http://www.irsm.cas.cz/index_en.php?page=acta_detail_doi&id=96
Online
Institute of Rock Structure and Mechanics of the ASCR, v.v.i.
Prague, Czech Republic
Online
en
2336-4351
10.13168/AGG.2014.0015
1
ChengLi
TomásFernández-Steeger
Jó AgilaBitsch Link
MatthiasMay
RafigAzzam
techreport
2014-draft-moskowitz-hip-dex-01
HIP Diet EXchange (DEX)
2014
3
4
draft-moskowitz-hip-dex-01
This document specifies the Host Identity Protocol Diet EXchange (HIP
DEX), a variant of the HIP Base EXchange (HIP BEX) [rfc5201-bis].
The HIP DEX protocol design aims at reducing the overhead of the
employed cryptographic primitives by omitting public-key signatures
and hash functions. In doing so, the main goal is to still deliver
similar security properties to HIP BEX.
The HIP DEX protocol is primarily targeted at computation or memory-constrained sensor devices. Like HIP BEX, it is expected to be used
together with another suitable security protocol such as the
Encapsulated Security Payload (ESP) [rfc5202-bis] for the protection
of upper layer protocols. HIP DEX can also be used as a keying
mechanism for a MAC layer security protocol as is supported by IEEE
802.15.4 [IEEE.802-15-4.2011].
Work in progress
iotsec; ietf
http://tools.ietf.org/html/draft-moskowitz-hip-dex-01
Online
Internet Engineering Task Force
Internet-Draft
en
RobertMoskowitz
RenéHummen
inproceedings
2014-comsnets-aktas-graph-based-redundancy-removal
Graph-based Redundancy Removal Approach for Multiple Cross-Layer Interactions
2014
1
7
1-8
crawler
http://www.comsys.rwth-aachen.de/fileadmin/papers/2014/2014-aktas-comsnets-redundancy.pdf
Online
IEEE
Proceedings of the 2014 Sixth International Conference on Communication Systems and Networks (COMSNETS), Bangalore, India
Bangalore, India
2014 Sixth International Conference on Communication Systems and Networks (COMSNETS)
7-10 January, 2014
en
978-1-4799-3635-9
10.1109/COMSNETS.2014.6734899
1
IsmetAktas
MartinHenze
Muhammad HamadAlizai
KevinMöllering
KlausWehrle
book
2014-EURAS-Jakobs
Cooperation among standardisation organisations and the scientific and academic community. Proceedings of the 19th EURAS Conference.
2014
Kai Jakobs & Ivana Mijatovic
Mainz Academic Publisher
KaiJakobs
IvanaMijatovic