Enabling the future of wearable innovation
HUMAN DATA HOURS IN SENSR MODEL
AI-DrivenEarly Detection
AI-driven insights for early detection of cardiovascular, respiratory, and stress events.
Clinical Integrations & FDA Pathway
Clinical integration to EHR to support programs like RPM for hospitals. FDA submission underway for expanded medical applications.
Proven Clinical Partnerships
Partnerships with iRhythm, BSecur, Stanford, NIH, and others.
Clinical-Grade Hardware & Signal Quality
Best in class dry-electrode ECG. 8 years of evolving and best-in-class PPG performance with clinical reviews.
Measurable Impact in Readmission & Monitoring
Supports readmission prevention, pre/post-op monitoring, virtual care extension, and reimbursement.
Enterprise-Grade Compliance & Security
Enterprise-grade data architecture with HIPAA and GDPR compliance.
Engagement-First Experience
Built-in engagement tools — surveys, reminders, and community features.
Recurring Revenue Model Aligned with Outcomes
Revenue model aligned with enterprise and clinical outcomes.
Whether it’s optimizing athletic performance, monitoring patient health, or improving workplace wellbeing, Sensr provides the technology backbone for enterprises to create meaningful wearable experiences that last.
Jobs
AI
Design large-scale, multi-agent AI ecosystems capable of coordinating complex genomic reasoning tasks across models, data centers, or research labs. You’ll build infrastructure that enables shared memory, federated learning, and adaptive role assignment across a network of intelligent systems. These agents might specialize in different forms of genomic prediction, bio-design, or historical synthesis—but must work in unison. Your architecture will define how AI collaborates across space and time.
Design large-scale, multi-agent AI ecosystems capable of coordinating complex genomic reasoning tasks across models, data centers, or research labs. You’ll build infrastructure that enables shared memory, federated learning, and adaptive role assignment across a network of intelligent systems. These agents might specialize in different forms of genomic prediction, bio-design, or historical synthesis—but must work in unison. Your architecture will define how AI collaborates across space and time.
Design large-scale, multi-agent AI ecosystems capable of coordinating complex genomic reasoning tasks across models, data centers, or research labs. You’ll build infrastructure that enables shared memory, federated learning, and adaptive role assignment across a network of intelligent systems. These agents might specialize in different forms of genomic prediction, bio-design, or historical synthesis—but must work in unison. Your architecture will define how AI collaborates across space and time.
Design large-scale, multi-agent AI ecosystems capable of coordinating complex genomic reasoning tasks across models, data centers, or research labs. You’ll build infrastructure that enables shared memory, federated learning, and adaptive role assignment across a network of intelligent systems. These agents might specialize in different forms of genomic prediction, bio-design, or historical synthesis—but must work in unison. Your architecture will define how AI collaborates across space and time.
Design large-scale, multi-agent AI ecosystems capable of coordinating complex genomic reasoning tasks across models, data centers, or research labs. You’ll build infrastructure that enables shared memory, federated learning, and adaptive role assignment across a network of intelligent systems. These agents might specialize in different forms of genomic prediction, bio-design, or historical synthesis—but must work in unison. Your architecture will define how AI collaborates across space and time.
AI
Design large-scale, multi-agent AI ecosystems capable of coordinating complex genomic reasoning tasks across models, data centers, or research labs. You’ll build infrastructure that enables shared memory, federated learning, and adaptive role assignment across a network of intelligent systems. These agents might specialize in different forms of genomic prediction, bio-design, or historical synthesis—but must work in unison. Your architecture will define how AI collaborates across space and time.
Design large-scale, multi-agent AI ecosystems capable of coordinating complex genomic reasoning tasks across models, data centers, or research labs. You’ll build infrastructure that enables shared memory, federated learning, and adaptive role assignment across a network of intelligent systems. These agents might specialize in different forms of genomic prediction, bio-design, or historical synthesis—but must work in unison. Your architecture will define how AI collaborates across space and time.
Design large-scale, multi-agent AI ecosystems capable of coordinating complex genomic reasoning tasks across models, data centers, or research labs. You’ll build infrastructure that enables shared memory, federated learning, and adaptive role assignment across a network of intelligent systems. These agents might specialize in different forms of genomic prediction, bio-design, or historical synthesis—but must work in unison. Your architecture will define how AI collaborates across space and time.
Design large-scale, multi-agent AI ecosystems capable of coordinating complex genomic reasoning tasks across models, data centers, or research labs. You’ll build infrastructure that enables shared memory, federated learning, and adaptive role assignment across a network of intelligent systems. These agents might specialize in different forms of genomic prediction, bio-design, or historical synthesis—but must work in unison. Your architecture will define how AI collaborates across space and time.
Design large-scale, multi-agent AI ecosystems capable of coordinating complex genomic reasoning tasks across models, data centers, or research labs. You’ll build infrastructure that enables shared memory, federated learning, and adaptive role assignment across a network of intelligent systems. These agents might specialize in different forms of genomic prediction, bio-design, or historical synthesis—but must work in unison. Your architecture will define how AI collaborates across space and time.
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