Applied computer engineering is the study of both theoretical and applied computer science. The field lies at the intersection of information technology, computer science, and business, meaning applied computing focuses on technical computing concepts and the development of skills in organizational leadership and business strategy. As a result, applied computing graduates are well-rounded with the hands-on technical skills needed to do a variety of IT jobs.
Brain function is remarkably reliable despite the imprecise performance of neurons, and the continuous perturbations caused by aging, disease or injury. How does the brain succeed in produci...
Computer vision (CV) has seen rapid growth in many industries, including the life sciences with high-content cell imaging and phenotypic assays. However, many biomolecular and cellular assay...
In this seminar, Dr Elvira will talk about the use of droplet microfluidic technologies for drug discovery. Initially, she will discuss the fundamental concepts of droplet microfluidic techno...
DATE: April 2nd, 2019TIME: 10:00AM PDTFor laboratories that operate within a quality management system, compliance with global standards such as ISO 9001, ISO 13485, ISO 17025, I...
Solid phase microextraction (SPME) is a versatile, non-exhaustive sample preparation tool that has been demonstrated to be well-suited for facile and effective analysis of a broad range of co...
In the postgenomic era, one expects the suite of chemical players in a brain region to be known and their functions uncovered. Perhaps surprisingly, many neurochemicals remain poorly characte...
A fast, reliable and low cost characterization of materials/ products as fed to a process, and/or resulting from different processing actions, represents one of the most challenging targets i...
PacBio Sequencing simultaneously provides long sequence reads, high consensus accuracy, minimal sequence bias, and methylation detection. I will highlight new advances and updates on applying...
Next-generation DNA sequencing has opened new possibilities for microbial water quality monitoring, particularly for addressing emerging concerns like antibiotic resistance and opportunistic...
DATE: January 30, 2018TIME: 9:00AM PST, 12:00PM ESTInfectious disease surveillance and monitoring is critical in settings where disease outbreaks and antibiotic resistance can dramatica...
DATE: November 16, 2017TIME: 12:00PM PTAutomating complex workflows that require manipulating or assessing samples over days or weeks often require thinking beyond a liquid handler.&nbs...
Nanopore sequencing has enormous potential for application to cancer, but specifically offers advantages into two main arenas, epigenetics and structural variation. Methylation is well-known...
The human large intestine houses trillions of microorganisms which collectively form the highly diverse microbial community known as the gut microbiota. The gut microbiota performs many funct...
I’ll talk about Strand NGS Server, our server-client NGS offering. Strand NGS server is geared towards small-to-medium scale clinical labs with high-volume sequencing throughputs and lo...
DATE: April 6, 2017TIME: 3:00PM GMT, 7:00AM PT, 10:00AM ETThe Edinburgh Genome Foundry (EGF) is a newly established facility of the University of Edinburgh and ass...
Challenges in achieving comparability, reproducibility and accuracy in biological assays has driven a demand for improved confidence in measurements that support development of regenerative m...
DATE: January 31, 2017TIME: 9:00AM PT, 12:00PM ET Gautam Dantas - While the most acute effects of increasing antibiotic resistance in pathogens are observed in clinical se...
Intra-tumor heterogeneity is a major obstacle to cancer treatment. Existing single-cell studies of intra-tumor heterogeneity have largely focused on DNA mutations; functional heterogeneity is...
The most important job of automated biology is to produce results that moves your research forward. If automation only executes a program of pre-determined set of steps, the researcher is lef...
Enzyme engineering is a powerful technology now widely used in laboratories around the world. The goal is to obtain improved proteins that will serve as better biocatalysts, biosensors or as ...
One of the primary goals of precision medicine is the aggregation and interpretation of deep, longitudinal patient-specific data in the context of the digital universe of information, using a...
Brain function is remarkably reliable despite the imprecise performance of neurons, and the continuous perturbations caused by aging, disease or injury. How does the brain succeed in produci...
Computer vision (CV) has seen rapid growth in many industries, including the life sciences with high-content cell imaging and phenotypic assays. However, many biomolecular and cellular assay...
In this seminar, Dr Elvira will talk about the use of droplet microfluidic technologies for drug discovery. Initially, she will discuss the fundamental concepts of droplet microfluidic techno...
DATE: April 2nd, 2019TIME: 10:00AM PDTFor laboratories that operate within a quality management system, compliance with global standards such as ISO 9001, ISO 13485, ISO 17025, I...
Solid phase microextraction (SPME) is a versatile, non-exhaustive sample preparation tool that has been demonstrated to be well-suited for facile and effective analysis of a broad range of co...
In the postgenomic era, one expects the suite of chemical players in a brain region to be known and their functions uncovered. Perhaps surprisingly, many neurochemicals remain poorly characte...
A fast, reliable and low cost characterization of materials/ products as fed to a process, and/or resulting from different processing actions, represents one of the most challenging targets i...
PacBio Sequencing simultaneously provides long sequence reads, high consensus accuracy, minimal sequence bias, and methylation detection. I will highlight new advances and updates on applying...
Next-generation DNA sequencing has opened new possibilities for microbial water quality monitoring, particularly for addressing emerging concerns like antibiotic resistance and opportunistic...
DATE: January 30, 2018TIME: 9:00AM PST, 12:00PM ESTInfectious disease surveillance and monitoring is critical in settings where disease outbreaks and antibiotic resistance can dramatica...
DATE: November 16, 2017TIME: 12:00PM PTAutomating complex workflows that require manipulating or assessing samples over days or weeks often require thinking beyond a liquid handler.&nbs...
Nanopore sequencing has enormous potential for application to cancer, but specifically offers advantages into two main arenas, epigenetics and structural variation. Methylation is well-known...
The human large intestine houses trillions of microorganisms which collectively form the highly diverse microbial community known as the gut microbiota. The gut microbiota performs many funct...
I’ll talk about Strand NGS Server, our server-client NGS offering. Strand NGS server is geared towards small-to-medium scale clinical labs with high-volume sequencing throughputs and lo...
DATE: April 6, 2017TIME: 3:00PM GMT, 7:00AM PT, 10:00AM ETThe Edinburgh Genome Foundry (EGF) is a newly established facility of the University of Edinburgh and ass...
Challenges in achieving comparability, reproducibility and accuracy in biological assays has driven a demand for improved confidence in measurements that support development of regenerative m...
DATE: January 31, 2017TIME: 9:00AM PT, 12:00PM ET Gautam Dantas - While the most acute effects of increasing antibiotic resistance in pathogens are observed in clinical se...
Intra-tumor heterogeneity is a major obstacle to cancer treatment. Existing single-cell studies of intra-tumor heterogeneity have largely focused on DNA mutations; functional heterogeneity is...
The most important job of automated biology is to produce results that moves your research forward. If automation only executes a program of pre-determined set of steps, the researcher is lef...
Enzyme engineering is a powerful technology now widely used in laboratories around the world. The goal is to obtain improved proteins that will serve as better biocatalysts, biosensors or as ...
One of the primary goals of precision medicine is the aggregation and interpretation of deep, longitudinal patient-specific data in the context of the digital universe of information, using a...
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