systemsGo Leverages KVH Data Center and Network Solutions to Implement a Private Cloud Solution for the New Singapore Headquarters of a Regional Hedge Fund
KVH NetXpress is an integrated network service enabling seamless integration of multiple services including network, cloud, managed IT, data center, and Internet services.
KVH Tokyo Otemachi Data Center (TODC) is located in Tokyo’s central business district, providing a highly convenient and easily accessible data center facility for businesses operating in Japan.
KVH Customer Case Study - Ride Co. Ltd.KVH Co. Ltd.
Ride Co., Ltd. has adopted "KVH MailScan MX", a cloud-based e-mail security solution used by a lot of global companies and constructed in a robust data center, as the platform of Ride's anti-virus/anti-spam solution "Virus & Spam Rejecter" offered to Ride's hosting service users.
KVH Data Center Solutions are a key part of KVH’s Information Delivery Platform, which combines data center services with a broad range of network services, managed IT services, and robust cloud solutions to enable multinational customers to establish IT hubs that support their business in Asia.
KVH owns and operates three ISMS and ISO-compliant data center facilities in the Tokyo and Osaka regions, and offers Data Center Services across Asia Pacific and globally, including in Hong Kong, Singapore, and Busan. These data centers have been either purposely built or selected for optimal security, resiliency, power density, and efficiency to meet the various demands of our customers, across the financial, media, gaming, and manufacturing industries.
KVH Singapore Data Center 1 (SGDC1) is located in Jurong East, 15 minutes from the financial district, and was purposely designed to serve the mission critical needs of enterprise businesses.
KVH 香港データセンター1(HKDC1)は、香港の証券取引所(HKEx)へ隣接しており、金融業界におけるミッションクリティカルなニーズに合わせて設計されています。Tier3+グレードの設備を備えた当データセンターは、香港取引所と隣接することにより、金融業界のお客様へ向けた高頻度取引(HFT: High Frequency Trading)など、最新鋭の低遅延接続の需要に対応する基幹センターとして、最適なプロキシミティ・コロケーションソリューションを提供しています。KVH はアジア地域の主要な金融取引所からプロキシミティ・ホスティング並びにアクセスポイントの認定プロバイダーとして推奨されており、お客様に質の高いサービス及びサポートをご提供します。
KVH Hong Kong Data Center 1 (HKDC1) is strategically located in proximity to the Hong Kong Exchange (HKEx) and was specially designed to serve the mission critical needs of the financial industry.
KVH Customer Case Study - Aplix CorporatinKVH Co. Ltd.
Since the founding of Aplix Corporation, a competitive edge in software development technology has been the core of their business. Pursuing business innovation based on high technological capabilities, software development, server expansion, capacity expansion resulted in increased stress on their developers.
In addition, during office relocation due to business expansion, it was essential to have flexibility and short lead time for network construction in order to reduce the down time of critical systems. KVH was selected as a valued network service provider with dedicated pre-sales engineers and specially assigned field engineers consistently offering extensive support from the start of the project, through network design, construction, and all the way through project delivery. KVH offered a dedicated leased line connection to AWS through which it was possible to shorten the down time of critical internal systems.
【DLゼミ】XFeat: Accelerated Features for Lightweight Image Matchingharmonylab
公開URL:https://arxiv.org/pdf/2404.19174
出典:Guilherme Potje, Felipe Cadar, Andre Araujo, Renato Martins, Erickson R. ascimento: XFeat: Accelerated Features for Lightweight Image Matching, Proceedings of the 2024 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR) (2023)
概要:リソース効率に優れた特徴点マッチングのための軽量なアーキテクチャ「XFeat(Accelerated Features)」を提案します。手法は、局所的な特徴点の検出、抽出、マッチングのための畳み込みニューラルネットワークの基本的な設計を再検討します。特に、リソースが限られたデバイス向けに迅速かつ堅牢なアルゴリズムが必要とされるため、解像度を可能な限り高く保ちながら、ネットワークのチャネル数を制限します。さらに、スパース下でのマッチングを選択できる設計となっており、ナビゲーションやARなどのアプリケーションに適しています。XFeatは、高速かつ同等以上の精度を実現し、一般的なラップトップのCPU上でリアルタイムで動作します。
セル生産方式におけるロボットの活用には様々な問題があるが,その一つとして 3 体以上の物体の組み立てが挙げられる.一般に,複数物体を同時に組み立てる際は,対象の部品をそれぞれロボットアームまたは治具でそれぞれ独立に保持することで組み立てを遂行すると考えられる.ただし,この方法ではロボットアームや治具を部品数と同じ数だけ必要とし,部品数が多いほどコスト面や設置スペースの関係で無駄が多くなる.この課題に対して音𣷓らは組み立て対象物に働く接触力等の解析により,治具等で固定されていない対象物が組み立て作業中に運動しにくい状態となる条件を求めた.すなわち,環境中の非把持対象物のロバスト性を考慮して,組み立て作業条件を検討している.本研究ではこの方策に基づいて,複数物体の組み立て作業を単腕マニピュレータで実行することを目的とする.このとき,対象物のロバスト性を考慮することで,仮組状態の複数物体を同時に扱う手法を提案する.作業対象としてパイプジョイントの組み立てを挙げ,簡易な道具を用いることで単腕マニピュレータで複数物体を同時に把持できることを示す.さらに,作業成功率の向上のために RGB-D カメラを用いた物体の位置検出に基づくロボット制御及び動作計画を実装する.
This paper discusses assembly operations using a single manipulator and a parallel gripper to simultaneously
grasp multiple objects and hold the group of temporarily assembled objects. Multiple robots and jigs generally operate
assembly tasks by constraining the target objects mechanically or geometrically to prevent them from moving. It is
necessary to analyze the physical interaction between the objects for such constraints to achieve the tasks with a single
gripper. In this paper, we focus on assembling pipe joints as an example and discuss constraining the motion of the
objects. Our demonstration shows that a simple tool can facilitate holding multiple objects with a single gripper.