Energy and weight reduction in hoisting systems with magnetic traction sheaves

At the Chair of Logistics Engineering, TU Dresden, a particular focus is research and development of magnetic traction sheaves. Therein the main fundamentals of these special sheaves are determined for applications in different fields such as elevators, several kinds of winches, hoists and cranes. In the current research project “energy balance of magnetic traction sheaves”, the dynamic behaviour of systems with magnetic traction sheaves was investigated. The research focused on theoretical and practical examinations of energy balance. Moreover, a new approach for dimensioning magnetic traction sheave systems is presented. It is a project of the Research Foundation Intralogistics / Material Handling and Logistics (IFL), which is funded through the AiF under the program of Industrial Collective Research for SMEs (IGF) by the Federal Ministry of Economics and Technology (BMWi).

Organizational maintenance repair parts and special tools list for loader-transporter, guided missile, M688A1 1450-01-133-4439 handling unit, guided missile equipment M39 1450-01-132-7715 hoisting unit, tripod M38 1450-00-937-0893 sling, beam type M22 1450-00-937-0894, Lance Field Artillery Missile System.

Includes index.

Direct support and general support maintenance repair parts and special tools list including depot maintenance repair parts and special tools for loader-transporter, guided missile, M688A1, 1450-01-133-4439, handling unit, guided missile equipment, M39, 1450-01-132-7715, hoisting unit, tripod, M38, 1450-00-937-0893, sling, beam type, M22, 1450-00-937-0894, Lance Field Artillery Missile System.

Includes index.

Hoisting C Structures Into Clay In Device Drivers

This project addresses the unreliability of operating system code, in particular in device drivers. Device driver software is the interface between the operating system and the device's hardware. Device drivers are written in low level code, making them difficult to understand. Almost all device drivers are written in the programming language C which allows for direct manipulation of memory. Due to the complexity of manual movement of data, most mistakes in operating systems occur in device driver code. The programming language Clay can be used to check device driver code at compile-time. Clay does most of its error checking statically to minimize the overhead of run-time checks in order to stay competitive with C's performance time. The Clay compiler can detect a lot more types of errors than the C compiler like buffer overflows, kernel stack overflows, NULL pointer uses, freed memory uses, and aliasing errors. Clay code that successfully compiles is guaranteed to run without failing on errors that Clay can detect. Even though C is unsafe, currently most device drivers are written in it. Not only are device drivers the part of the operating system most likely to fail, they also are the largest part of the operating system. As rewriting every existing device driver in Clay by hand would be impractical, this thesis is part of a project to automate translation of existing drivers from C to Clay. Although C and Clay both allow low level manipulation of data and fill the same niche for developing low level code, they have different syntax, type systems, and paradigms. This paper explores how C can be translated into Clay. It identifies what part of C device drivers cannot be translated into Clay and what information drivers in Clay will require that C cannot provide. It also explains how these translations will occur by explaining how each C structure is represented in the compiler and how these structures are changed to represent a Clay structure.

Organizational maintenance repair parts and special tools list for handling equipment, mounting and accessory kits, dolly set M805E1 2330-00-078-1212 beam, hoisting M32 1450-00-973-433l beam, hoisting M33 1450-00973-4332 sling M28 1450-00-168-6002 blanket (guidance and control) M11E2 1450-00-738-5934 sling M27 1450-00-900-8214 tie down kit 1450-00-964-9918....

"Mounting kit M241E5 1450-00-078-1217 accessory kit M219E1 1450-00-179-5317 accessory kit M218E1 1450-00-179-5318 mounting kit M184 1450-00-179-6095 Pershing 1a Field Artillery Missile System.