University Of Massachusetts Patent Portfolio Statistics

University Of Massachusetts

Profile Summary

This article summarizes the perfomance of the assignee in the recent years. The overall statistics for this portfolio help to analyze the areas where the assignee is performing well. The filing trend, perfomance across the tech centers and the perfomance of the recent applications has been mentioned below. All the stats are calculated based on the perfomance in USPTO.

How does the overall patent portfolio of University Of Massachusetts look like?

Assignee Art Units
Total Applications: 1,310 2,068,528
Granted Patents: 711 1,141,214
Grant Index 72.11% 68.78%
Abandoned/Rejected Applications: 275 (27.89%) 518,090 (31.22%)
In-Process Applications: 322 409,224
Average Grant Time: 3.13 Years 2.8 Years
Average Office Actions: 1.87 1.68

Which Technology Area University Of Massachusetts is filing most patents in? (Last 10 years)

Art Unit Definition Total Applications
1635 Molecular Biology, Bioinformatics, Nucleic Acids, Recombinant DNA and RNA, Gene Regulation, Nucleic Acid Amplification, Animals and Plants, Combinatorial/ Computational Chemistry 116
Opap Parked GAU 82
1633 Molecular Biology, Bioinformatics, Nucleic Acids, Recombinant DNA and RNA, Gene Regulation, Nucleic Acid Amplification, Animals and Plants, Combinatorial/ Computational Chemistry 62
1674 Process, Nucleic acid, Protein, Carbohydrate Chemistries and Diagnostics 42
1648 Immunology, Receptor/Ligands, Cytokines Recombinant Hormones, and Molecular Biology 40

How many patents are University Of Massachusetts filing every year?

Year Total Applications Predicted
2022 0* 619
2021 48* 637
2020 86 530
2019 91 91
2018 78
2017 66
2016 75
2015 51
2014 57
2013 65

*The drop in the number of applications filed in last two years compared to previous years is because applications can take up to 18 months to get published

Recently filed patent applications of University Of Massachusetts in USPTO?

Publication number: US20220220331A1
Application number: 17/629,798

Abstract:
This disclosure describes manufacture of a mixture and use of same to fabricate different types of electronic components. In one configuration, the mixture includes: first particles, the first particles being an insulator material; second particles, the second particles being electrically conductive metal material; and a combination of the first particles and the second particles suspended in a printable liquid medium, the printable liquid/solid medium (slurry) being curable into a dielectric layer of material. According to one configuration, the printable material is disposed and cured on a substrate. The first particles and second particles are randomly distributed in the cured printed material (dielectric material). The second particles in the cured dielectric material are transformable into one or more electrically conductive paths, electronic components, etc., via application of heat above a threshold value. Thus, a dielectric (insulator) material can be transformed into an electrically conductive path via application of heat.

Publication date:
Applicant: University Of Massachusetts
Inventors: K Oshadha Ranasingha


Publication number: None
Application number: 17/629,893

Abstract:


Publication date:
Applicant: University Of Massachusetts
Inventors: B Cantor Sharon


Publication number: US20220219383A1
Application number: 17/619,069

Abstract:
A printed component, printing process, and apparatus providing (i) a printed shell defines an internal cavity having a height greater than the height of one layer of the provided shell and a width greater than one road of a printed shell, (ii) the internal cavity at least partially filled with injected material, and (iii) the material composing the internal cavity defining one or more interlocks with the material composing the printed shell. Various embodiments are described comprising the use of multiple materials, diverging and converging walls, continuous and intermittent injections of the filled cavities, inserted components, and various monitoring and control methods. Via techniques as described herein, the printing time of an object fabricated via additive printing is while also increasing the strength and quality of the printed components.

Publication date:
Applicant: University Of Massachusetts
Inventors: David Kazmer O


How are University Of Massachusetts’s applications performing in USPTO?

Application Number Title Status Art Unit Examiner
17/629,798 Printable Mixture, Manufacture, And Use Docketed New Case – Ready for Examination OPAP Central, Docket
17/629,893 Prediction Of Cancer Therapy Efficacy Docketed New Case – Ready for Examination OPAP Central, Docket
17/619,069 Injection Printing Via Shell Deposition And Cavity Filling Application Undergoing Preexam Processing 1742
17/520,603 Inhibitors Of Protein Arginine Deiminases (Pads) And Methods Of Preparation And Use Thereof Docketed New Case – Ready for Examination OPAP Central, Docket
17/608,053 Genetically Engineered Microorganisms And Methods Of Use Docketed New Case – Ready for Examination OPAP Central, Docket