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Scientists and engineers are using a distributed system Remote Component Environment (RCE) to design and simulate complex systems like airplanes, ships and satellites. During the simulation, RCE executes local and remote code. Remote code is classified as untrusted code. The execution of remote code comprises potential security risks for the host system of RCE. Additionally, RCE provides full access to system resources. The objective of this thesis is to implement a sandbox prototype to reduce the vulnerability of RCE during the execution of remote code.
Nowadays perception is still an up-to-date scienti fic issue on a mobile robot system. This thesis introduces an approach on how to recognize objects, namely numbers, using a digital camera on a Volksbot robot. The robot used in this thesis has been specifi cally designed for the SICK robot day. The development of the vision algorithm was done in two stages: the region of interest detection and the actual number recognition. Diff erent algorithms had been tested and evaluated and the Canny edge detector with contour finding has been proven to be the best choice for the region of interest detection and the Tesseract OCR engine was the best decision for number recognition. To integrate the vision component on an existing robot system, ROS was used. This thesis also discusses the integration of the EPOS motor controller into ROS.
Robots integrated into a social environment with humans need the ability to locate persons in their surrounding area. This is also the case for the WelcomeBot which is developed at the Fraunhofer Institute IAIS. In the future, the robot should follow persons in the buildings and guide them to certain areas. Therefore, it needs the capability to detect and track a person in the environment. In this master thesis, an approach for fast and reliable tracking of a person via a mobile robotic platform is presented. Based on the investigation of different methods and sensors, a laser scanner and a camera are selected as the primary two sensors.
Grid services will form the base for future computational Grids. Web Services, have been extended to build Grid services. Grid Services are dened in the Open Grid Service Architecture (OGSA). The Globus Alliance has released a Web Service Resource Framework, which is still under development and which is still missing vital parts. One of them is a Concept that allows Grid-Service Requests to securely traverse Firewalls, and its realization. This Thesis aims at the development and realization of a detailed Concept for an Application Level Gateway for Grid services, based on an existing rough concept. This approach should enable a strict division between a local network and the Internet. The internet is considered as a untrusted site and the local network is considered as a trusted site. Grid resources are placed in the internet as well as in the local network. This means that the possibility to communicate through a Firewall is essential. Some further protocols like Grid Resource Allocation and Management (GRAM) and the Grid File Transfer Protocol (GridFTP) must be able to traverse the network borders securely as well, while no further actions must be taken from the user side. The German Federal Oce for Information Security (BSI) proposes a Firewall - Application Level Gateway (ALG) - Firewall solution to the German Aerospace Center (DLR) where this Thesis is written, as a principle approach. In this approach, the local network is divided from the Internet with two rewalls. Between those rewalls is a demilitarized zone (DMZ), where computers may be placed, which can be accessed from the Internet and from the local network. An ALG which is placed in this DMZ should represent the local Grid nodes to the Internet and it should act as a client to the local nodes. All Grid service requests must be directed to the ALG instead of the protected Grid nodes. The ALG then checks and validates the requests on the application level (OSI layer 7). Requests that pose no security threat and fulll certain criteria will then be forwarded to the local Grid nodes. The responses from the local Grid nodes are checked and validated by the ALG as well.
The introduction of gestures as a supplementary input modality has become of increasing interest to human computer interaction design, especially for 3D computer environments. This thesis describes the concepts and development of a gesture recognition system based on the machine learning technique of Hidden Markov Models. Well-known from the field of speech recognition, this statistical method is employed in this thesis to represent and recognize predefined gestures. Within this work, gestures are defined as symbols, such as simple geometric shapes or Roman letters. They are extracted from a stream of three-dimensional optical tracking data which is resampled, reduced to 2D and quantized to be used as input to discrete Hidden Markov Models. A set of prerecorded training data is used to learn the parameters of the models and recognition is achieved by evaluating the trained models. The devised system was used to augment an existing virtual reality prototype application which serves as a demonstration and development platform for the VRGeo consortium. The consortium's goal is to investigate and utilize the benefits of virtual reality technology for the oil and gas industry. An isolated test of the system with seven gestures showed accuracies of up to 98.57% and the review from experts in the fields of virtual reality and geophysics was predominantly positive.