Ownership of fitness tracker devices in the U.S. grew from about four million users at the beginning of 2013 to an estimated to an estimated 15 million in 2014, according to research from Parks Associates. The sales of fitness tracker devices will reach 15.6 million units in 2015, according to Consumer Technology Association, formerly Consumer Electronics Association (CEA).
As the connected fitness tracker market grows, expect competition to mount not only from within but especially outside the market from other devices including smartwatches and smartphones/apps. In this study, you can learn more about the technology and market trends.
These slides use concepts from my (Jeff Funk) course entitled analyzing hi-tech opportunities to show how wearable technology is becoming more economically feasible. Rapid improvements in microprocessors, memory, cameras, displays, cellular processors, WiFi, and other sensors are improving the economics of wearable computing. These slides describe wearable computing devices for the detailed parts of the arm (fingers, hand, wrist), body (chest, neck, waist, shoulders, torso), legs (thighs, ankles, feet), and head. (ear, eyes, forehead). They provide price and other performance data, functions that can be performed, and predictions for the future.
Ownership of fitness tracker devices in the U.S. grew from about four million users at the beginning of 2013 to an estimated to an estimated 15 million in 2014, according to research from Parks Associates. The sales of fitness tracker devices will reach 15.6 million units in 2015, according to Consumer Technology Association, formerly Consumer Electronics Association (CEA).
As the connected fitness tracker market grows, expect competition to mount not only from within but especially outside the market from other devices including smartwatches and smartphones/apps. In this study, you can learn more about the technology and market trends.
These slides use concepts from my (Jeff Funk) course entitled analyzing hi-tech opportunities to show how wearable technology is becoming more economically feasible. Rapid improvements in microprocessors, memory, cameras, displays, cellular processors, WiFi, and other sensors are improving the economics of wearable computing. These slides describe wearable computing devices for the detailed parts of the arm (fingers, hand, wrist), body (chest, neck, waist, shoulders, torso), legs (thighs, ankles, feet), and head. (ear, eyes, forehead). They provide price and other performance data, functions that can be performed, and predictions for the future.