Financial Results for the First Quarter of the Fiscal Year Ending March 2024KDDI
Statements made in these documents with respect to the KDDI Group‘s performance targets, projected subscriber numbers, future forecasts and strategies that are not historical facts are forward-looking statements about the future performance of the KDDI Group, based on company’s assumptions and beliefs in light of the information available at the time they were made. They therefore include certain risks and uncertainties. Actual results can differ from these statements due to reasons including, but not limited to, domestic and overseas situation, economic trends, competitive position, formulation, revision or abolition of laws and ordinances, regulations or systems, government actions or intervention and the success or lack thereof of new services.
Consequently, please understand that there is a possibility that actual performance, subscriber numbers, strategies and other information may differ significantly from the forecast information contained in these materials or other envisaged situations.
Financial Results for the First Quarter of the Fiscal Year Ending March 2024KDDI
Statements made in these documents with respect to the KDDI Group‘s performance targets, projected subscriber numbers, future forecasts and strategies that are not historical facts are forward-looking statements about the future performance of the KDDI Group, based on company’s assumptions and beliefs in light of the information available at the time they were made. They therefore include certain risks and uncertainties. Actual results can differ from these statements due to reasons including, but not limited to, domestic and overseas situation, economic trends, competitive position, formulation, revision or abolition of laws and ordinances, regulations or systems, government actions or intervention and the success or lack thereof of new services.
Consequently, please understand that there is a possibility that actual performance, subscriber numbers, strategies and other information may differ significantly from the forecast information contained in these materials or other envisaged situations.
2019年10月25日、CTC Forum 2019@品川。楽天ではどのようにビッグデータの活用を行っているのか、データサイエンスおよびAIの視点でプレゼンテーションが行われた。登壇者:勝山 公雄(Senior Manager, Global Data Supervisory Department, Rakuten, Inc.)
The way to a smart factory armed with data utilizationDataWorks Summit
In this presentation, we will look at the appearance of smart factory that should come through introduction of plant conservation integration solution provided by our company. This solution is composed of workers at the manufacturing site and various applications that contribute to the improvement of the safety and efficiency of facilities and processes, and outlines the data utilization, project promotion, platform architecture etc. which are essential to it.
2019年10月25日、CTC Forum 2019@品川。楽天ではどのようにビッグデータの活用を行っているのか、データサイエンスおよびAIの視点でプレゼンテーションが行われた。登壇者:勝山 公雄(Senior Manager, Global Data Supervisory Department, Rakuten, Inc.)
The way to a smart factory armed with data utilizationDataWorks Summit
In this presentation, we will look at the appearance of smart factory that should come through introduction of plant conservation integration solution provided by our company. This solution is composed of workers at the manufacturing site and various applications that contribute to the improvement of the safety and efficiency of facilities and processes, and outlines the data utilization, project promotion, platform architecture etc. which are essential to it.
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.
【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。