monitoring. The variation in temper

monitoring. The variation in temperature measured on the skin

can give an indication of what is happening with the person’s

body temperature and can be used to detect the symptoms of

medical stress that might lead to various health conditions,

including stroke, heart attacks and shock. The measurement

of body temperature is extremely useful for determining the

physiological condition as well as for other things such as

activity classification [20], [21], or even harvesting energy

from body heat [22].

The next most common physiological parameter is the heart

rate of the person under monitoring. Heart rate is a precisely

regulated variable, which plays a critical role in health and

disease of human. There are many methods available to

measure heart rate of a person; Photoplethysmography (PPG)

based technology [23], [24], sound based [25], based on

changes on brightness of person’s face [26], and so on.

Accelerometers are very commonly used in monitoring of

human activity and basically are used to measure acceleration

along a sensitive axis and over a particular range of

frequencies. They can be used for many purposes such as

detection of fall [27]–[29] movement and analysis of body

motion [28], [29] or a subject’s postural orientation [30], [31].

There are several types of accelerometers available based on

piezoelectric, piezoresistive, or variable capacitance methods

of transduction. Usually all of them employ the same principle

of operation of a mass that responds to acceleration by causing

a spring or an equivalent component to stretch or compress

proportionally to the measured acceleration [27], [30].

In [32] the heart rate has been combined with body

movement intensity, calculated on the average acceleration

of multiple accelerometers attached to different parts of the

body to estimate energy expenditure during physical activity.

Wearable ElectroCardiogram (ECG) sensors are also

used for short-time assessment of cardiovascular diseases,

especially for people with chronic heart problems. The

ECG signal provides very useful information about the rate

and regularity of the heart beats, which are used in diagnosis

of cardiac diseases. A low power high resolution Thoracic

Impedance Variance and ECG monitoring has been developed

and incorporated in a compact plaster sensor form for wearable

low cost cardiac healthcare [33]. An asynchronous analog-
to-information conversion system has been introduced for

measuring the RR intervals of the ECG signals [34]. The

system contains a modified level-crossing analog-to-digital

converter and a novel algorithm for detecting the R-peaks

from the level-crossing sampled data in a compressed volume

of data [34].

The above sensors are the most commonly used sensors

for activity monitoring of humans. There may be many other

sensors employed depending on special requirement or critical

needs. A flexible, textile capacitive sensor fabricated from

conductive textile patches to measure capacitance of the

human body has been reported [35] which could reveal

information of human activities such as including heart rate

and breathing rate monitoring, hand gesture recognition,

swallowing monitoring, and gait analysis. An amperometric

sensor composed of a multiwall carbon nanotube (MWNT)

functionalized nylon-6 mat to quantify the amount of sodium ions in sweat in real-time has been designed and

developed [36]. Wearable micromachined sensors can be very

powerful in providing accurate biomechanical analysis under

ambulatory conditions [37]. The possibility of development

of wearable skins that can monitor, sense, and interact with

the world around us in a perpetual way, thus significantly

enhancing ambient intelligence and quality of life has been

discussed [38]. It is expected that the potential applications

of wearable technologies will include the early diagnosis of

diseases such as congestive heart failure, the prevention of

chronic conditions such as diabetes, improved clinical man-
agement of neurodegenerative conditions such as Parkinson’s

disease, and the ability to promptly respond to emergency

situations such as seizures in patients with epilepsy and cardiac

arrest in subjects undergoing cardiovascular monitoring [39].