Domain Bearing(도메인 베어링)란 무엇입니까?
Domain Bearing 도메인 베어링 - A nonmutated A3 domain was covalently linked with an A3′ domain bearing a unique cysteine on a chosen mutated position (F119C or Y26C). [1]돌연변이되지 않은 A3 도메인은 선택된 돌연변이 위치(F119C 또는 Y26C)에 독특한 시스테인을 보유하는 A3' 도메인과 공유적으로 연결되었습니다. [1]
dynamic distribution adaptation 동적 분포 적응
In this paper, a dynamic distribution adaptation based transfer network (DDATN) is proposed for cross domain bearing fault diagnosis. [1] presented a dynamic distribution adaptation based transfer network (DDATN), where instance-weighted dynamic maximum mean discrepancy (IDMMD) was proposed for dynamic distribution adaptation (DDA), so that cross domain bearing fault diagnosis can be achieved. [2] Dynamic Distribution Adaptation Based Transfer Network for Cross Domain Bearing Fault Diagnosis. [3]본 논문에서는 교차 도메인 베어링 결함 진단을 위한 DDATN(Dynamic Distribution Adaptation Based Transfer Network)을 제안한다. [1] DDATN(Dynamic Distribution Adaptation Based Transfer Network)은 DDA(Dynamic Distribution Adaptation)에 IDMMD(Instance-Weighted Dynamic Maximum Mean Disrepancy)를 제안하여 교차 도메인 베어링 결함 진단을 달성할 수 있습니다. [2] nan [3]
Cros Domain Bearing 크로스 도메인 베어링
In this paper, a dynamic distribution adaptation based transfer network (DDATN) is proposed for cross domain bearing fault diagnosis. [1] presented a dynamic distribution adaptation based transfer network (DDATN), where instance-weighted dynamic maximum mean discrepancy (IDMMD) was proposed for dynamic distribution adaptation (DDA), so that cross domain bearing fault diagnosis can be achieved. [2] Dynamic Distribution Adaptation Based Transfer Network for Cross Domain Bearing Fault Diagnosis. [3]본 논문에서는 교차 도메인 베어링 결함 진단을 위한 DDATN(Dynamic Distribution Adaptation Based Transfer Network)을 제안한다. [1] DDATN(Dynamic Distribution Adaptation Based Transfer Network)은 DDA(Dynamic Distribution Adaptation)에 IDMMD(Instance-Weighted Dynamic Maximum Mean Disrepancy)를 제안하여 교차 도메인 베어링 결함 진단을 달성할 수 있습니다. [2] nan [3]
domain bearing fault 도메인 베어링 오류
In this paper, a dynamic distribution adaptation based transfer network (DDATN) is proposed for cross domain bearing fault diagnosis. [1] presented a dynamic distribution adaptation based transfer network (DDATN), where instance-weighted dynamic maximum mean discrepancy (IDMMD) was proposed for dynamic distribution adaptation (DDA), so that cross domain bearing fault diagnosis can be achieved. [2] To address the above problems, this paper proposes an end-to-end multi-adversarial cross-domain neural network for bearing fault diagnosis, which takes labeled source domain data and unlabeled target domain data to achieve the cross-domain bearing fault diagnosis under cross-load conditions and cross-machine conditions. [3] Dynamic Distribution Adaptation Based Transfer Network for Cross Domain Bearing Fault Diagnosis. [4]본 논문에서는 교차 도메인 베어링 결함 진단을 위한 DDATN(Dynamic Distribution Adaptation Based Transfer Network)을 제안한다. [1] DDATN(Dynamic Distribution Adaptation Based Transfer Network)은 DDA(Dynamic Distribution Adaptation)에 IDMMD(Instance-Weighted Dynamic Maximum Mean Disrepancy)를 제안하여 교차 도메인 베어링 결함 진단을 달성할 수 있습니다. [2] 위의 문제를 해결하기 위해 본 논문에서는 베어링 결함 진단을 위한 종단간 다중 적대적 교차 영역 신경망을 제안합니다. - 부하 조건 및 교차 기계 조건. [3] nan [4]
domain bearing protein
Through interactions with ligands such as SIRPα, TSP-1, integrins, and SH2-domain bearing protein tyrosine phosphatase substrate-1 (SHPS-1), CD47 regulates numerous functions like cell adhesion, proliferation, apoptosis, migration, homeostasis, and the immune system. [1] By interacting with its ligands, including thrombospondin-1 (TSP-1), signal regulatory protein α (SIRPα), integrins, and SH2-domain bearing protein tyrosine phosphatase substrate-1 (SHPS-1), it modulates cellular phagocytosis by macrophages, transmigration of neutrophils and activation of dendritic cells, T cells and B cells. [2] Immunofluorescence localization of a GDPH domain bearing protein (Ac629) as well as two other proteins identified in this study (Ac1442, Ac9617) demonstrated that these are components of the adhesive trails that are secreted by cells that glide on surfaces. [3]SIRPα, TSP-1, 인테그린 및 SH2-도메인 보유 단백질 티로신 포스파타제 기질-1(SHPS-1)과 같은 리간드와의 상호작용을 통해 CD47은 세포 접착, 증식, 세포자멸사, 이동, 항상성 및 면역과 같은 수많은 기능을 조절합니다. 체계. [1] 트롬보스폰딘-1(TSP-1), 신호 조절 단백질 α(SIRPα), 인테그린 및 SH2-도메인 보유 단백질 티로신 포스파타제 기질-1(SHPS-1)을 포함한 리간드와 상호작용하여 대식세포에 의한 세포 식세포 작용을 조절합니다. 호중구의 이동 및 수지상 세포, T 세포 및 B 세포의 활성화. [2] 이 연구에서 확인된 두 개의 다른 단백질(Ac1442, Ac9617)뿐만 아니라 GDPH 도메인 베어링 단백질(Ac629)의 면역형광 국소화는 이들이 표면에서 미끄러지는 세포에 의해 분비되는 접착 흔적의 구성요소임을 입증했습니다. [3]