by Ian Khan | Oct 10, 2023 | Futurist Blog
Dr. Eric Topol: A cardiologist, geneticist, and digital medicine researcher, Dr. Topol’s work at the Scripps Research Translational Institute focuses on using AI, genomics, and smart sensors to individualize medical treatments. His bestselling book “Deep Medicine” elaborates on how AI can transform healthcare.
Dr. Regina Barzilay: A professor at MIT and a MacArthur “genius grant” recipient, Dr. Barzilay’s work in AI and machine learning has led to innovations in breast cancer detection and drug development, emphasizing the transformative potential of smart technologies in healthcare.
Dr. Rasu Shrestha: As the Chief Strategy Officer at Atrium Health, Dr. Shrestha emphasizes innovative and patient-centered healthcare. He has been an advocate for integrating AI and digital technologies to improve patient outcomes.
Dr. Suchi Saria: Professor at Johns Hopkins University, Dr. Saria’s work focuses on the applications of machine learning in healthcare settings, from early sepsis detection to individualized treatment recommendations.
Prof. Elizabeth Mynatt: Executive Director of the Institute for People and Technology at Georgia Tech, her research on digital health solutions includes smart home technologies to support the chronically ill and mobile applications for mental well-being.
Dr. Daniel Kraft: Faculty Chair for Medicine at Singularity University and founder of Exponential Medicine, Dr. Kraft researches the impact of technologies like AI, nanotechnology, and digital health wearables on healthcare.
Prof. Patty Kostkova: A digital health expert at the University College London, Prof. Kostkova works on smart health systems that use big data, social media, and mobile technologies to tackle global health challenges.
Dr. Bertalan Meskó: Termed ‘The Medical Futurist’, Dr. Meskó analyzes how science fiction technologies can become a reality in medicine and what factors could affect the future of the healthcare industry, particularly focusing on AI, robotics, and genome editing.
Dr. Wendy Nilsen: As a Health Scientist Administrator at the National Institutes of Health (NIH), Dr. Nilsen’s work revolves around the integration of smart systems in health, including wearables, sensors, and other mobile health (mHealth) innovations.
Prof. Shafi Ahmed: A multi-award-winning surgeon, teacher, and futurist, Prof. Ahmed’s significant contributions include the use of VR in the operating room, digital health solutions in global surgery, and the exploration of AR in medical education.
by Ian Khan | Oct 10, 2023 | Futurist Blog
Dr. Amnon Shashua: As the co-founder of Mobileye, an Intel company, Shashua’s work revolves around developing AI-driven ADAS technologies that promise to reshape the dynamics of automotive safety.
Raj Rajkumar: A pioneer in the world of autonomous vehicles and ADAS at Carnegie Mellon University, Rajkumar’s groundbreaking research provides insights into the coalescence of software, hardware, and real-world driving.
Dr. Gill Pratt: The CEO of Toyota Research Institute, Dr. Pratt has been instrumental in guiding research on autonomous driving and advanced driver-assistance systems, focusing on enhancing safety and reducing traffic fatalities.
Prof. Dr. Gérard Medioni: An influential figure at USC’s Institute for Robotics and Intelligent Systems, Medioni’s research on computer vision is pivotal for many ADAS functionalities, particularly object detection and tracking.
Stefan Sommer: As the Board of Management Member for Components and Systems at Volkswagen AG, Sommer oversees the integration of ADAS technologies, ensuring state-of-the-art functionalities in VW cars.
Bryan Reimer, Ph.D.: Based at MIT’s AgeLab, Reimer’s work delves deep into driver behavior and how ADAS technologies can be tailored for better human-machine interactions, ensuring safer driving experiences.
Dr. Larry Heck: Recognized for his deep learning research, Dr. Heck’s work is integral to voice recognition systems, a fundamental aspect of many ADAS functionalities ensuring drivers remain hands-free.
Dr. Alberto Broggi: As a professor at the University of Parma, Broggi’s ventures, like VisLab, have focused on vehicular robotics, pioneering technologies crucial to ADAS.
Sergey Ulanov: As the lead at Yandex’s autonomous driving project, Ulanov’s expertise offers a unique blend of ADAS with ride-hailing capabilities, ensuring safer and more efficient urban transportation.
Sanjay Sood: As the Vice President of Highly Automated Driving at HERE Technologies, Sood’s work centers around creating high-definition mapping solutions, a crucial component for many ADAS functionalities and autonomous driving.
by Ian Khan | Oct 10, 2023 | Futurist Blog
Dr. M. Stanley Whittingham: Awarded the Nobel Prize in Chemistry 2019, Whittingham is recognized for his foundational work in developing the lithium-ion battery. His contributions have shaped the current landscape of energy storage systems.
Dr. John B. Goodenough: Sharing the Nobel Prize with Whittingham, Goodenough’s research enhanced the potential and efficiency of lithium-ion batteries, making them more suitable for various applications, including electric vehicles.
Dr. Yet-Ming Chiang: A professor at MIT, Chiang’s work focuses on developing novel battery materials and designs. He has co-founded several companies, including A123 Systems and 24M, that aim to commercialize advanced energy storage solutions.
Dr. Linda Nazar: Renowned for her work on solid-state electrolytes and advanced battery systems at the University of Waterloo, Nazar’s research has great potential for the next generation of high-density energy storage.
Dr. George Crabtree: Leading the Joint Center for Energy Storage Research (JCESR), Crabtree’s work encompasses next-gen batteries, including beyond-lithium-ion systems, to meet future energy needs.
Prof. Peter Bruce: Based at the University of Oxford, Bruce’s research on lithium-air and lithium-sulfur batteries offers promising avenues for energy storage with higher energy density.
Dr. Venkat Viswanathan: An associate professor at Carnegie Mellon University, Viswanathan’s work focuses on the intersection of electrochemistry, machine learning, and materials design for advanced battery technologies.
Dr. Yi Cui: A Stanford University professor, Cui’s extensive research encompasses next-gen battery technologies, from lithium-metal to water-in-salt electrolyte systems, striving for more efficient and sustainable energy storage.
Dr. Kristin Persson: As the director of the Materials Project at Lawrence Berkeley National Laboratory, Persson utilizes advanced computational methods to discover new materials for energy storage applications.
Dr. Jeff Dahn: Working in collaboration with Tesla, Dahn’s research at Dalhousie University aims to improve the lifespan and reliability of lithium-ion batteries, making them more viable for long-term applications like electric cars.
by Ian Khan | Oct 10, 2023 | Futurist Blog
Robert Langer: Based at MIT, Langer is arguably the most prominent figure in the drug delivery world. His innovations encompass a wide range of materials and methods for delivering drugs, including nanoparticles, biodegradable polymers, and microchips.
Dr. Omid Farokhzad: A professor at Harvard Medical School, Farokhzad has made significant strides in nanoparticle drug delivery, particularly targeting cancer cells, improving the efficacy of treatment while minimizing side effects.
Dr. Tejal Desai: Chair of the Department of Bioengineering at the University of California, San Francisco, Dr. Desai focuses on micro- and nano-scale technologies to enable targeted and sustained drug delivery.
Prof. Samir Mitragotri: Currently at Harvard’s Wyss Institute, Mitragotri has been instrumental in developing non-invasive drug delivery systems, including using ultrasound and ionic liquids for transdermal delivery.
Prof. Maria J. Alonso: At the University of Santiago de Compostela, Prof. Alonso’s work encompasses nanomedicine and molecular and cell biology to design advanced drug delivery systems, notably using lipid-based nanoparticles.
Dr. Patrick Couvreur: Based at Paris-Sud University, Dr. Couvreur has pioneered lipid-core nanocapsules and has been deeply involved in nanomedicine applications in drug delivery, with a focus on targeting cancer and inflammatory diseases.
Prof. Justin Hanes: At Johns Hopkins, Hanes’s work on mucus-penetrating particles has opened new avenues for delivering drugs to mucosal surfaces in the body, with potential applications in a wide range of diseases.
Dr. Ruth Duncan: Previously at Cardiff University, Dr. Duncan’s work on polymer therapeutics has opened new horizons for the targeted delivery of bioactive agents, particularly for cancer treatment.
Prof. Kinam Park: At Purdue University, Prof. Park has been a pioneer in controlled drug release systems, with a particular focus on oral delivery and the challenges of delivering large molecules like proteins and peptides.
Dr. Mark Prausnitz: Based at the Georgia Institute of Technology, Prausnitz’s work revolves around microneedle patches for drug and vaccine delivery, offering a painless and more efficient method compared to traditional injections.
by Ian Khan | Dec 26, 2022 | Ian Khan Blog
Building systems in your business can help to improve efficiency, productivity, and profitability. Here are seven steps to help you build systems in your business:
Identify the problem or need: The first step in building a system is to identify the problem or need that you are trying to solve. This could be anything from inefficient processes to a lack of communication among team members.
Define the goal: Once you have identified the problem or need, the next step is to define the goal of the system. What do you hope to achieve by building the system? Be specific and measurable.
Gather information: To build an effective system, you will need to gather as much information as possible about the current process or problem that you are trying to solve. This may involve talking to team members, analyzing data, or conducting research.
Create a plan: Once you have gathered all of the necessary information, the next step is to create a plan for building the system. This should include a detailed outline of the steps involved, as well as a timeline for implementation.
Implement the system: Once you have created a plan, it’s time to put it into action. This may involve training team members on the new system, updating procedures and policies, and making any necessary changes to your business processes.
Test and refine: After implementing the system, it is important to test it to ensure that it is working as intended. This may involve collecting data and feedback from team members, and making any necessary adjustments to the system.
Monitor and maintain: Building a system is an ongoing process. It is important to monitor the system to ensure that it is functioning properly and meeting the goals that you set out to achieve. This may involve making regular updates and adjustments to the system, as well as providing ongoing training to team members.
Overall, building systems in your business can help to improve efficiency, productivity, and profitability. By following these seven steps, you can create effective systems that will help your business to thrive.
