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Spatial Computing Jobs in Worcester, MA (NOW HIRING)

Spatial Computing information

What is spatial computing?

Spatial computing refers to the use of digital technology to interact with and manipulate physical space and objects. It integrates technologies like augmented reality (AR), virtual reality (VR), sensors, and artificial intelligence to create immersive experiences that blend the digital and physical worlds. Spatial computing is used in various fields, such as gaming, architecture, healthcare, and manufacturing, to enhance visualization, collaboration, and data analysis. This technology enables users to interact with digital content as if it were part of their real environment.

What is the difference between Spatial Computing vs Augmented Reality Developer?

AspectSpatial ComputingAugmented Reality Developer
Required CredentialsTypically a degree in computer science, engineering, or related fields; knowledge of 3D modeling and programmingSimilar credentials, often with specialization in AR platforms and SDKs
Work EnvironmentDesigning and developing 3D environments, often involving hardware like AR/VR headsets and sensorsCreating AR applications for mobile devices or AR glasses, often in app development environments
Industry UsageUsed across gaming, architecture, healthcare, and training for spatial interactionPrimarily in entertainment, marketing, and mobile app development sectors

While both roles involve immersive technology, Spatial Computing focuses on creating comprehensive 3D environments and interactions, whereas Augmented Reality Developers specialize in overlaying digital content onto real-world views. Understanding these differences helps in choosing the right career path or project focus within immersive tech industries.

What are the key skills and qualifications needed to thrive as a Spatial Computing Specialist, and why are they important?

To excel as a Spatial Computing Specialist, a solid background in computer science, mathematics, and 3D modeling, often supported by a relevant degree or certification, is essential. Familiarity with programming languages (such as C++, Python), spatial mapping tools, AR/VR development platforms (like Unity or Unreal Engine), and sensor integration is typically required. Strong problem-solving skills, creativity, and effective cross-disciplinary communication set top professionals apart in this field. These skills are vital for developing innovative spatial computing solutions that blend digital and physical environments, driving advancements in industries such as gaming, architecture, and healthcare.

What are some common challenges spatial computing professionals face when working on cross-disciplinary teams?

Spatial computing professionals often collaborate with experts in software development, user experience design, hardware engineering, and domain specialists. A common challenge is ensuring effective communication between team members with different technical backgrounds and vocabularies. Additionally, integrating spatial data and real-world context into digital solutions requires careful coordination and iterative testing. Successful professionals are proactive in bridging knowledge gaps and fostering a shared understanding to drive project goals forward.
What cities near Worcester, MA are hiring for Spatial Computing jobs? Cities near Worcester, MA with the most Spatial Computing job openings:
Infographic showing various Spatial Computing job openings in Worcester, MA as of June 2026, with employment types broken down into 67% Full Time, and 33% Part Time. Highlights an 100% In-person job distribution.
Postdoctoral Research Fellow - Computational Biology/Bioinformatics

Postdoctoral Research Fellow - Computational Biology/Bioinformatics

Vistera Inc

Waltham, MA • On-site

$53K - $72K/yr

Full-time

Posted 2 days ago


Job description

Postdoctoral Research Fellow - Computational Biology/Bioinformatics (Computational Single Cell and Genetics)


Summary

Visterra is seeking a highly talented, self-motivated, and innovative Postdoctoral Research Fellow to join our Genomics Platform team. This role offers a unique opportunity to work at the intersection of computational biology and therapeutic discovery, applying cutting-edge single-cell multi-omics and genetics tools to advance precision medicine. The fellow will conceptualize and implement advanced computational approaches for analyzing large-scale single-cell multi-omics and genetics datasets to derive novel biological insights.


This position provides an opportunity to directly impact drug discovery and clinical development. By collaborating across interdisciplinary teams, the fellow will integrate insights from single-cell, spatial and genetics analyses into precision medicine strategies for immune, kidney and neurodegenerative diseases. This role provides an opportunity to bridge discovery and clinical translational applications, allowing for direct influence on therapeutic programs.


About Visterra's Genomics Platform Team

Our interdisciplinary team of wet-lab biologists and computational biologists employs state-of-the-art single-cell multiomics, spatial transcriptomics, and genetics approaches to advance therapeutic discovery and development. Areas of focus include:

  • New target identification
  • Disease characterization
  • Mechanism-of-action studies
  • Clinical trial biomarker development

This temporary, full-time position is on-site at Visterra's offices in Waltham, MA, with an expected duration of 2 years. The fellowship provides an excellent opportunity to gain valuable experience in computational biology at Visterra. Exceptional performers may be considered for long-term career opportunities within the company.

Responsibilities

  • Develop and implement advanced computational and machine learning strategies, including deep learning, graph-based methods, and probabilistic modeling, to extract insights from multi-omic single-cell and spatial datasets
  • Integrate population-level genetic association data (e.g., GWAS summary statistics, eQTL resources) with single-cell and spatial datasets to contextualize cellular findings within a genetic framework.
  • Collaborate with internal and external scientists and clinicians to drive insights from multi-omics/genetics data, supporting novel therapeutic development.
  • Independently analyze scientific results, troubleshoot computational approaches, and design innovative workflows.
  • Clearly communicate complex data findings to colleagues and senior management.
  • Engage in research discussions, proactively suggesting innovative solutions to impact discovery and clinical programs.
  • Stay current with advancements in computational biology by reviewing literature, evaluating new technologies, and implementing relevant methodologies.
  • Present research findings at conferences and publish in scientific journals. Institutional support is available for conference travel and publication fees.


Qualifications

  • D. or equivalent in computational biology, bioinformatics, or a related field.
  • Experience with single-cell or spatial transcriptomics analysis.
  • Expertise in genetics analysis (e.g., GWAS, eQTL, variant calling).
  • Proficiency in computational tools such as Seurat, Scanpy, PLINK, LDSC and other relevant methods.
  • Strong programming skills in Python and/or R for bioinformatics applications.
  • Experience working in high-performance computing frameworks.
  • Excellent collaboration and interpersonal skills for multi-disciplinary teamwork.
  • Strong problem-solving abilities, analytical thinking, and intellectual curiosity.
  • Exceptional written and verbal communication skills, with the ability to present complex ideas clearly to diverse audiences.
  • Passion for developing computational technologies for biological research and translating findings into therapeutic applications in precision medicine and translational research.


Travel: Occasional travel to local and national conferences.

Job Type: Full-time, on-site, temporary with a fixed term.

Company

Visterra is a team of 110 talented and driven individuals working collaboratively to develop a pipeline of innovative antibody-based therapies for patients with unmet needs. Our proprietary technology platform, powered by a state-of-the-art laboratory, enables the design and engineering of precision antibody-based therapeutics that selectively modulate key disease targets. Our focus includes kidney, immune, and other hard-to-treat diseases.


As a subsidiary of Otsuka Pharmaceutical Co., Ltd. of Japan, Visterra benefits from the agility of an innovative, dynamic biotech environment, while also enjoying the stability and long-term vision of a 100-year-old global company.


Visterra is an equal opportunity employer. We provide equal employment opportunities to all employees and applicants and prohibit discrimination and harassment based on race, color, religion, age, sex, national origin, disability status, genetics, protected veteran status, sexual orientation, gender identity or expression, or any other characteristic protected by federal, state, or local laws.