SBIR Phase I: Enabling Techologies for Energy-Centric Mobile App Design to Extend Mobile Device Battery Life

SBIR 第一阶段：以能源为中心的移动应用程序设计支持技术，以延长移动设备的电池寿命

• 批准号: 1549214
• 负责人: Charlie Hu
• 金额: $ 15万
• 依托单位: Mobile Enerlytics LLC
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2016
• 资助国家: 美国
• 起止时间: 2016-01-01 至 2016-10-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1549214&HistoricalAwards=false
• 关键词: SBIR; Phase; Enabling; Techologies; Energy

The broader impact/commercial potential of this Small Business Innovation Research (SBIR) Phase I project can be summarized as follows. (1) Societal impact: The PI's initial ground-breaking research on dissecting the energy drain of AngryBirds and exposing its inefficiency was covered by over 500 news media outlets worldwide. This interest reflects the growing importance of mobile computing devices in all strata of society. The importance of this work is heightened by smartphones being an important enabler of Internet access for disadvantaged people in both developed and developing countries, and hence being an important tool in overcoming the "digital divide". (2) Commercial impact: The technologies developed in this project for enabling energy-efficient app design will lead to longer battery life, which in turn leads to longer mobile eye time of users, which ultimately translates into millions of dollars of increased revenue to large businesses today as they transition towards mobile. The commercial outcome of the proposed SBIR project will lead to a marketable product and/or process. (3) Technological impact: This work will extend the performance profiling technology foundational to the software industry to the energy dimension, which is critical to the mobile software industry.This Small Business Innovation Research (SBIR) Phase I project will tackle several key technical challenges in helping app developers to write energy-efficient apps, which holds the promise of extending the battery life of mobile devices and ultimately improving user mobile experience. The research objectives are (1) to develop energy analytics of mobile apps running on millions of users' phones and incentivize developers to adopt an energy-centric app design paradigm; (2) to develop technologies for app energy profiling with multiple resolutions which will make it easier for developers to adopt them in their app design process; (3) to develop energy-efficiency programming guidelines and templates for helping app developers to write energy-efficient apps in the first place. These objectives pose significant technical challenges. While similar challenges on the performance metric (e.g. running time) have been well studied for traditional software, in particular in high-performance computing, this project will take them to the energy dimension for the mobile software industry, which has not been attempted before. The company expects to develop the first set of solutions to these fundamental challenges in optimizing the energy drain of millions of mobile apps.

该小企业创新研究 (SBIR) 第一阶段项目的更广泛影响/商业潜力可总结如下。 (1) 社会影响：PI 最初的突破性研究是剖析《愤怒的小鸟》的能源消耗并揭露其低效率，全球 500 多家新闻媒体对此进行了报道。这种兴趣反映了移动计算设备在社会各阶层中日益增长的重要性。智能手机是发达国家和发展中国家弱势群体接入互联网的重要推动者，因此成为克服“数字鸿沟”的重要工具，这凸显了这项工作的重要性。 (2) 商业影响：该项目开发的用于实现节能应用程序设计的技术将带来更长的电池寿命，进而延长用户的移动眼睛时间，最终转化为大型企业增加数百万美元的收入如今，企业正在向移动转型。拟议的 SBIR 项目的商业成果将产生可销售的产品和/或流程。 (3)技术影响：这项工作将把软件行业基础的性能分析技术扩展到能源维度，这对移动软件行业至关重要。这个小型企业创新研究(SBIR)第一阶段项目将解决几个关键技术挑战帮助应用程序开发人员编写节能应用程序，这有望延长移动设备的电池寿命并最终改善用户的移动体验。研究目标是（1）开发数百万用户手机上运行的移动应用程序的能源分析，并激励开发人员采用以能源为中心的应用程序设计范式； (2) 开发多分辨率的应用能量分析技术，使开发者更容易在应用设计过程中采用它们； (3) 制定节能编程指南和模板，帮助应用程序开发人员首先编写节能应用程序。这些目标提出了重大的技术挑战。虽然传统软件（特别是高性能计算）对性能指标（例如运行时间）的类似挑战已经进行了深入研究，但该项目将把它们带到移动软件行业的能源维度，这是以前从未尝试过的。该公司希望开发第一套解决方案来应对这些基本挑战，优化数百万移动应用程序的能源消耗。