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Intelligent Containers And Sensor Networks Approaches To Apply Autonomous Cooperation On Systems With Limited Resources

R. Jedermann, Christian Behrens, R. Laur, W. Lang
Published 2007 · Computer Science

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RFIDs, sensor networks and low-power microcontrollers are increasingly applied in logistics. They are characterized by restrictions on calculation power, communication range and battery lifetime. In this article we consider how these new technologies can be utilized for autonomous cooperation and how these processes could be realized on systems with limited resources.
This paper references
Seminar „Lernalgorithmen in der Robotik
K Bergmann (1998)
10.1016/0308-521X(95)00058-D
A generic model for keeping quality of vegetable produce during storage and distribution
L. Tijskens (1996)
10.17660/ACTAHORTIC.2005.687.35
Temperature variances in a 12 m integral reefer container carrying plums under a dual temperature shipping regime
Helen Punt (2005)
Intelligent containers and sensor networks , Approaches to apply autonomous cooperation on systems with limited resources
R. Jedermann
10.1080/15501320701260816
Distributed Sensor Networks: A Multiagent Perspective
R. Brooks (2008)
JADE: A White Paper
F. Bellifemine (2003)
10.1109/EWSN.2005.1462006
Flexible hardware abstraction for wireless sensor networks
V. Handziski (2005)
Swarm Intelligence - From Natural to Artificial Systems
E. Bonabeau (1999)
: Mobile Java Code for Embedded Transport Monitoring Systems
R. Jedermann (2006)
On the Feasibility and Meaning of Security in Sensor Networks
Zinaida Benenson (2005)
10.1109/MAHSS.2005.1542773
An experimental study of routing and data aggregation in sensor networks
O. Younis (2005)
The Control, Coordination, and Organizational Design of a Distributed Sensor Network
R Mailler (2005)
10.1016/J.SNA.2006.02.008
Applying autonomous sensor systems in logistics—Combining sensor networks, RFIDs and software agents
R. Jedermann (2006)
Realisierung lokaler Selbststeuerung in Echtzeit: Der Übergang zum intelligenten Container
R Jedermann (2006)
10.1109/FUZZ.2002.1004975
A fuzzy incremental synchronous learning technique for embedded-agents learning and control in intelligent inhabited environments
H. Hagras (2002)
Seminar „Lernalgorithmen in der Robotik
Zurich (1998)
10.1016/S0019-9958(65)90241-X
Fuzzy Sets
L. Zadeh (1965)
10.1007/978-1-4615-0363-7_8
Using Autonomy, Organizational Design and Negotiation in a Distributed Sensor Network
B. Horling (2003)
Intelligent Agents: Theory and Practice
M Wooldridge (1995)
10.1145/381677.381699
A transmission control scheme for media access in sensor networks
A. Woo (2001)
10.1109/JRA.1986.1087032
A robust layered control system for a mobile robot
R. Brooks (1986)
10.3929/ETHZ-A-004996456
Das Internet der Dinge
Elgar Fleisch (2005)
10.1145/872757.872817
The design of an acquisitional query processor for sensor networks
S. Madden (2003)
Führerpersönlichkeit und Herdentrieb
C Pöppe (2005)
Intelligent containers and sensor networks , Approaches to apply autonomous cooperation on systems with limited resources
C. Behrens
10.1007/3-540-28299-8_2
Die technische Basis für das Internet der Dinge
F. Mattern (2005)
10.1109/TSMCA.2005.846382
Self-organized routing for wireless microsensor networks
A. Rogers (2005)
Fruchtlogisik: Gobale Beschaffung – Lokale Verteilung, Vortrag am 21 Beiträge zur sicheren Kommunikation mobiler Systeme An embedded-agent technique for industrial control environments
A Dannenberg (1999)
10.1108/01445159910295230
An embedded‐agent technique for industrial control environments where process modelling is difficult
H. Hagras (1999)
Embedded Grid Computing. In: Elektronik, Fachzeitschrift für industrielle
KD Walter (2005)
Linking keeping quality models and sensor systems to an autonomous transport supervision system
R. Jedermann (2006)
Fruchtlogisik: Gobale Beschaffung – Lokale Verteilung
A Dannenberg (2006)
Intelligente Agenten mit Java programmieren
J Bigus (2001)
Ph
李幼升 (1989)
Beiträge zur sicheren Kommunikation mobiler Systeme
Christian Alexander Gorecki (2006)
Modelling quality matters.
O. V. Kooten (2001)
Discovering the Future: Modelling Quality Matters
L. Tijskens (2004)
10.17660/ACTAHORTIC.2003.599.22
TEMPERATURE VARIABILITY DURING SHIPMENT OF FRESH PRODUCE
D. Tanner (2003)



This paper is referenced by
10.1109/ITST.2009.5399392
A model of Wireless Sensor Networks using context-awareness in logistic applications
V.Q. Son (2009)
Optimal Sample Rate for Wireless Sensor Actuator Network
A. M. Jafari (2009)
Development of monitoring applications for refrigerated perishable goods transportation
L. R. García (2011)
GRADUATE SUPERVISORY COMMITTEE
P. Dasgupta (2005)
10.1007/978-3-540-76862-3_18
Dynamic Decision Making on Embedded Platforms in Transport Logistics - A Case Study
R. Jedermann (2007)
Optimum Sample Number for Central and Autonomous Wireless Sensor Network in Process Automation Applications
A. M. Jafari (2009)
10.1109/JSEN.2010.2060480
The “Intelligent Container”—A Cognitive Sensor Network for Transport Management
Walter Lang (2011)
10.1109/ICPCA.2011.6106544
A multi-threshold approach for efficient and user-centric event transmission in logistics wireless sensor networks
Sebastian Zoller (2011)
10.1109/ICINFA.2008.4607966
A novel routing technology based on circle and wedge for wireless sensor network
J. Zhou (2008)
10.1109/LCN.2012.6423622
Distributed data filtering in logistics wireless sensor networks based on transmission relevance
Sebastian Zöller (2012)
10.1186/1687-1499-2012-166
PluralisMAC: a generic multi-MAC framework for heterogeneous, multiservice wireless networks, applied to smart containers
Pieter De Mil (2012)
Kontextbasierte Eventerkennung in der Logistik mit drahtloser Sensornetztechnologie
Sebastian Zöller (2012)
10.18178/jtle.4.2.167-172
STAPID: A Secured Approach for Container Monitoring and Tracking
Yasir Salih Ali (2016)
10.1109/LCN.2011.6115190
Scoresheet-based event relevance determination for energy efficiency in wireless sensor networks
Sebastian Zöller (2011)
10.1109/iCoMET48670.2020.9073916
Proposing Model for Security of IoT Devices in Smart Logistics: A Review
A. W. Abbas (2020)
10.1007/978-3-642-30154-4_13
Intelligent Modeling and Control for Autonomous Logistics
Tobias Warden (2012)
10.1007/978-1-84996-257-5_15
A Semantic Mediator for Data Integration in Autonomous Logistics Processes
Karl Hribernik (2010)
10.1007/978-3-642-19157-2_10
Business Models for the Internet of Things
Eva Bucherer (2011)
10.1007/978-3-642-20092-2_3
Autonomous Control in Logistics
Arne Schuldt (2011)
10.1007/978-81-322-1668-1_20
Improving Flexibility in Autonomous Cooperating Food Chains
Verena Brenner (2014)
ECONOMIC SUCCESS OF AUTONOMOUS COOPERATION IN INTERNATIONAL SUPPLY NETWORKS ? – DESIGNING AN INTEGRATED CONCEPT OF BUSINESS MODELLING AND SERVICE ENGINEERING FOR STRATEGIC USAGE OF TRANSPONDER-TECHNOLOGIES
M. Hülsmann (2008)
10.1007/978-3-319-04948-9_25
Integrating Smart Objects as Data Basis in Virtual Enterprise Collaborations
Sebastian Zöller (2014)
10.5391/JKIIS.2009.19.3.398
Implementation of Intelligent Container System and Information Processing Using Fuzzy Logic
Sang Hyuk Son (2009)
10.1109/ICAMS.2010.5553146
Notice of RetractionRisks resulting from autonomous cooperation technologies in logistics
M. Hulsmann (2010)
10.1109/NTMS.2008.ECP.84
SCAR: Sequential Coordinate Routing Algorithm for Autonomous Wireless Sensor Network
A. M. Jafari (2008)
Development and evaluation of an autonomous wireless sensor actuator network in logistic systems
A. Jafari (2010)
10.1109/ICSNC.2009.89
Robustness in Autonomous and Central Wireless Sensor Network: The Orchard Example
A. M. Jafari (2009)
10.1109/ATC.2010.5672724
WiSeCoMaSys: A tool for data collection and management of Wireless Sensor Networks
Vo Que Son (2010)
10.1109/LCNW.2013.6758496
Going all the way - Detecting and transmitting events with wireless sensor networks in logistics
Sebastian Zöller (2013)
10.1109/MCI.2008.930986
Building virtual community in computational intelligence and machine learning [Research Frontier]
J. Zurada (2009)
Collaboration of Mobile and Pervasive Devices for Embedded Networked Systems
Su Jin Kim (2010)
10.1007/s13218-010-0027-1
An Agent-based Approach to Autonomous Logistic Processes
Jan D. Gehrke (2010)
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