<--- Back to Details
First PageDocument Content
Office equipment / Folding machine / Pitney Bowes / Pitney / Océ / Book / Paper size / Walter Bowes / Arthur Pitney / Printing / Print production / Stationery
Date: 2010-10-06 07:09:52
Office equipment
Folding machine
Pitney Bowes
Pitney
Océ
Book
Paper size
Walter Bowes
Arthur Pitney
Printing
Print production
Stationery

Add to Reading List

Source URL: www.pitneybowes.pl

Download Document from Source Website

File Size: 641,63 KB

Share Document on Facebook

Similar Documents

Optimizing protein folding with a parallelprocessing, iterative annealing machine 报 告 人: Prof. George H. Lorimer 报告时间: 2015年6月4日 (星期四)下午15:00 报告地点: 生物物理研究所950

DocID: 1gAk1 - View Document

Paper / Technology / Coated paper / Paperboard / Sticker / Folding boxboard / Label / Aqua / Printing / Stationery / Packaging materials

June My Daily Routine Trimmer, scissors, adhesive, dimensional adhesive, edge distresser, white cardstock, sewing machine (optional). Patterned Paper: 1 sheet each: Peep Strandz (Item #883), Bell Pepper Strandz (Item

DocID: 1glvB - View Document

Multivariate statistics / Model selection / Brain / Linear discriminant analysis / Sulcus / Linear classifier / Cross-validation / Feature selection / Support vector machine / Statistics / Machine learning / Statistical classification

IEEE TRANSACTIONS ON MEDICAL IMAGING, VOL. 26, NO. 4, APRILClassification Based on Cortical Folding Patterns Edouard Duchesnay*, Arnaud Cachia, Alexis Roche, Denis Rivière, Yann Cointepas,

DocID: 1g6Wc - View Document

Biochemistry / Proteomics / Proteins / Motion planning / Theoretical computer science / Protein folding / Probabilistic roadmap / Protein domain / Protein / Biology / Protein structure / Machine learning

Adaptive Motion Planning for Complex Planning Problems Lydia Tapia and John Baxter Abstract— Motion planning has been used to solve problems of high complexity in both robotic and biological domains. In robotics, the t

DocID: 1aiof - View Document

Biochemistry / Proteomics / Proteins / Motion planning / Theoretical computer science / Protein folding / Probabilistic roadmap / Protein domain / Protein / Biology / Protein structure / Machine learning

Adaptive Motion Planning for Complex Planning Problems Lydia Tapia and John Baxter Abstract— Motion planning has been used to solve problems of high complexity in both robotic and biological domains. In robotics, the t

DocID: 19kA8 - View Document