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1. 发明申请

WO2006077422A1 FRETS FOR STRINGED MUSICAL INSTRUMENTS AND THEIR MANUFACTURE. 审中-公开
标题翻译：乐器乐器及其制造。
公开(公告)号：WO2006077422A1
公开(公告)日：2006-07-27
申请号：PCT/GB2006/000201
申请日：2006-01-20
申请人： ARAS, Richard
发明人： ARAS, Richard
IPC分类号： G10D3/06 , G10D1/00
CPC分类号： G10D3/06 , G10D1/005
摘要： Stringed instruments are described in which the fingerboard is fitted with preformed frets that are made of a hard material such as a ceramic, a metal derivative, e.g. tungsten-carbide, a hard glass, or a composite. The frets are CNC machined from blanks such that their shape corresponds precisely to the compound curves typically required of fretted instruments and the fingerboard and the frets are sufficiently accurately made to obviate the need for any adjustment after assembly. The fret surface that will contact a string is highly polished and extremely hard and may be coated with a layer of diamond film, titanium nitride, or silicon carbide. There is also described the method of making frets for the fingerboard of a stringed instrument in which the fingerboard is fitted with preformed frets wherein rough fret blanks of a hard material are made by molding and firing, the fired frets are ground down to finished size using CDC machining and the said frets are shaped with a form tool to create a single continuous curve over three sides, the top and both ends, to develop a smooth rounded surface. A group of fired frets may be ground down to finished size by gang machining and the fired frets are subject to progressive grinding with different grade and size wheels. Protrusions are formed on the bottom face of the blanks to assist seating on the fingerboard.
摘要翻译：描述了弦乐器，其中指板装配有由诸如陶瓷，金属衍生物等硬质材料制成的预成型的毛发。碳化钨，硬质玻璃或复合材料。金属是通过坯料进行CNC加工，使得它们的形状精确地对应于通常需要的微动工具和指板的复合曲线，并且可以充分准确地制造出钢丝，从而避免在组装之后进行任何调整。与金属丝接触的玻璃表面是高度抛光和非常硬的并且可以用金刚石薄膜，氮化钛或碳化硅层涂覆。还描述了用于制作弦乐器的指板的方法，其中指板装配有预成型的音色，其中硬质材料的粗糙的毛坯通过模制和烧制而制成，使用 CDC加工和所述金属片通过成形工具成形，以在三面（顶部和两端）上形成单个连续曲线，以形成平滑的圆形表面。一组燃烧的钢丝可以通过组合加工将其磨碎成最终的尺寸，并且烧制的钢锭经受不同等级和尺寸轮的渐进磨削。在坯料的底面上形成突起，以辅助指板上的放置。

2. 发明申请

WO2011077103A1 GEODESIC MASSIVELY-PARALLEL SUPERCOMPUTER 审中-公开
标题翻译：地质大理石平行超级计算机
公开(公告)号：WO2011077103A1
公开(公告)日：2011-06-30
申请号：PCT/GB2010/002338
申请日：2010-12-24
申请人： ARAS, Richard
发明人： ARAS, Richard
IPC分类号： G06F15/80 , G06F15/173 , G06F9/38
CPC分类号： G06F15/803 , G06F15/17375 , G06F15/8023
摘要： Communication latency, now a dominant factor in computer performance, makes physical size, density, and interconnect proximity crucial system design considerations. The present invention addresses consequential supercomputing hardware challenges: spatial packing, communication topology, and thermal management. A massively-parallel computer with dense, spherically framed, geodesic processor arrangement is described. As a mimic of the problem domain, it is particularly apt for climate modelling. However, the invention's methods scale well, are largely independent of processor technology, and apply to a wide range of computing tasks. The computer's interconnect features globally short, highly regular, and tightly matched distances. Communication modes supported include neighbour-to-neighbour messaging on a spherical-shell lattice, and a radial network for system-synchronous clocking, broadcast, packet-switched networking, and IO. A near-isothermal cooling system, physically divorcing heat source and sink, enables extraordinarily compact geodes with lower temperature operation, higher speed, and lower power consumption.
摘要翻译：通信延迟，现在是计算机性能的主要因素，使物理尺寸，密度和互连接近度至关重要的系统设计考虑。本发明解决了相应的超级计算硬件挑战：空间打包，通信拓扑和热管理。描述了具有密集，球形框架，测地线处理器布置的大型并行计算机。作为对问题领域的模拟，它特别适用于气候建模。然而，本发明的方法规模很大，在很大程度上独立于处理器技术，并且适用于广泛的计算任务。计算机的互连具有全球短，高度规则和紧密匹配的距离。支持的通信模式包括在球面外壳网格上的邻居消息传递，以及用于系统同步时钟，广播，分组交换网络和IO的径向网络。近等温冷却系统，物理离散的热源和水槽，使得能够具有更低温度操作，更高速度和更低功耗的特别紧凑的地线。

3. 发明申请

WO2020031041A1 MULTI-AXIS POSITION SENSING SYSTEM 审中-公开
公开(公告)号：WO2020031041A1
公开(公告)日：2020-02-13
申请号：PCT/IB2019/056607
申请日：2019-08-02
申请人： ARAS, Richard
发明人： ARAS, Richard
IPC分类号： G06T7/73
摘要： Multi-axis self-location method and apparatus wherein de Bruijn sequences on 2 or more axes are convolved into an array of symbols such as halftone dots to form a reference scale. The position of an imaging device such as a camera relative to the reference scale is ascertained from the captured camera image by bit-wise reconstitution of axis position codes with simple, predominantly linear operations over small neighbourhoods. Judicious choice of differential coding, LFSR generator polynomials, mathematical operators, and deconvolution kernels enables code digits of an axis to be regenerated while simultaneously cancelling out the contributions of other axes. Also optionally provided are uniform DC-balanced variants yielding greatly improved position interpolation, isometric implementations decodable from high-aspect-ratio sample windows, robust concatenated error correction, and extensions into n-space.

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