XDA Developers was founded by developers, for developers. It is now a valuable resource for people who want to make the most of their mobile devices, from customizing the look and feel to adding new functionality.
When launched in the UK, Vodafone quickly sold all of its stock and developed a backlog of orders, and O2 delayed putting the HD2 on its website so that it could fulfill all orders. Similarly, in the US, the HTC HD2 sold out in most T-Mobile stores within 4 hours and T-Mobile struggled to keep it in stock for several weeks.
How to restore stock ROM on HTC HD2 How to remove everything that I installed for Android or Windows Phone 7 I need to send HTC HD2 to HTC Support for warranty service because unlocking bootloader may void all or parts of your warranty. No worry, you can restore HTC HD2 to stock ROM and everything back to stock even after installed Android or Windows Phone 7. Just follow below step by step video guide.
As you can see from the video, I managed to remove Android 2.3.5 Gingerbread from my HTC HD2. Then install back stock Windows Mobile 6.5. And the HSPL was reverted to stock SPL too. No worry about warranty issue when send your HTC HD2 to service now.
Measured SAR - Working closely with federal health and safety agencies, such as the Food and Drug Administration (FDA), the FCC has adopted limits for safe exposure to radiofrequency (RF) energy. These limits are given in terms of a unit referred to as the Specific Absorption Rate (SAR), which is a measure of the amount of radio frequency energy absorbed by the body when using a mobile phone.
Thank you Unlockr, I would not have done this process if I didnt watch a video tutorial. Question do you if the stock rom from the TMOBILE HD2 is available. I was doing some readings and people cant go back to it.
I am wanting to buy this phone, but is it worth the money I dont want to waste that much money on a phone that i really wont be able to do anything with because it is on windows 6.5. i know this has been asked many times, but should i, or should i not
Dear Unlocr, i got T-mobile HD2 (USA) with cutom ROM from someone. I want to flash T mobile official ROM upgrade on it. Is there any chance that my phone become LOCKED to T Mobile after upgrade Thanks
to the unlockrwould you be able to walk me through getting the windows mobile device center 6.1 onto my phone cause my computer has windows 7 and its giving me some trouble, so if you could plz email me the steps that i need to take or something thanxs
Can anyone tell me how to get the hard spl to load every time it kicks my usb connectionand gives me an error. I tried it on my computer its a vista and now on my wifes and its a windows 7, for the love of droid plz help me.
I always keep myself up to date with latest news and rumors in smartphone industry. My love for Android started back in 2011 when I got my first ever Android device - Huawei u1860, it's remained my primary mobile OS back then.
Android and Windows are both useful mobile operating systems that are filled with features and easy to use. Either OS can be used on smartphones and tablets. While droids utilize multiple home screens that can be customized, Windows phones have a single home screen with tiles that give you access to apps. They can be customized and rearranged.
Windows Phone refers to the mobile operating system developed by Microsoft as well as the extensive line of mobile phones that are powered by Windows. Windows phones utilise a sleek pictographic Windows Start menu as the home screen on mobile devices, and they also include a bevvy of other useful functions and features. If you're looking for a Windows Phone, you can find a wide variety on eBay.
Windows mobile phones are produced by a number of different manufacturers. You can refer to the manufacturer site for specific product lines and models. Some notable Windows devices include the Windows Lumia 950 and 950XL. The Lumia XL offered a 5.7-inch display and 1440p resolution. In addition, it included a high-specification 20-megapixel camera, which is rarely found on mobile devices.
Windows mobile operating system and Windows for PC run different CPU architectures. Desktop software will typically run x86 or x64 processors, while most Windows mobile devices use ARM processors: Here are some other software comparisons:
The enormous advances in energy efficient and high-speed computing and communication technologies have revolutionized the global telecom industry. Furthermore, the significant progress in display, sensor and battery technologies together have paved the way for modern mobile devices such as smartphones and tablets, enabling seamless internet connectivity, entertainment, and health and fitness monitoring on the go along with conventional voice and text communication. Smartphones have grown in popularity over the past decade and by 2021, the global penetration of smartphones is expected to exceed 3.8 billion . Modern day smartphones come with a number of embedded sensors such as a high-resolution complementary metal-oxide semiconductor (CMOS) image sensor, global positioning system (GPS) sensor, accelerometer, gyroscope, magnetometer, ambient light sensor and microphone. These sensors can be used to measure several health parameters such as heart rate (HR), HR variability (HRV), respiratory rate (RR), and health conditions such as skin diseases and eye diseases, thus turning the communication device into a continuous and long-term health monitoring system. Table 1 presents the health parameters and conditions that can be monitored using current embedded sensors of the smartphone. The data that are measured by the sensors can be analyzed and displayed on the phone and/or transmitted to a distant healthcare facility or healthcare personnel for further investigation over the wireless mobile communication platform such as 3G, high speed packet access (HSPA), and long-term evolution (LTE). These existing platforms offer high-speed and seamless internet connectivity even on the go, thereby allowing people to remain connected with their healthcare providers [7,22].
Some researchers [58,59,60,61,62] used the microphone of the smartphones to realize a low-cost spirometer in a mobile platform. Spirometers are widely used in clinical settings to quantify the flow and volume of air inspired and expired by the lungs during breathing. In standard spirometry, a volume-time (VT) curve (Figure 5a) and a flow-volume (FV) curve (Figure 5b) are obtained from forced expiratory flow. These curves are used to extract some clinically important parameters such as forced vital capacity (FVC), forced expiratory volume in 1 s (FEV1), peak expiratory flow (PEF), and the ratio FEV1 to FVC (FEV1/FVC), which are routinely used clinically to determine the degree of airflow obstruction in patients with pulmonary disorders such as asthma, COPD and cystic fibrosis. However, clinical spirometers are expensive and cost several thousands of dollars. Therefore, a smartphone-based spirometer can be a viable low-cost alternative to these expensive spirometers, particularly for the people in remote areas and in underdeveloped countries.
A smartphone-based system named DERMA/care was proposed in Reference  to assist in the screening of melanoma. An inexpensive and small dimension (6 cm 4 cm 2 cm) off-the-shelf microscope was mounted on the camera of the smartphone for capturing high-resolution images of the skin. In addition, a mobile application that can extract some characteristic features from the image of the affected skin was developed. The application was used to extract textural features such as entropy, contrast and variance, and geometric features such as area, perimeter and diameter. The features were then fed to a support vector machine (SVM) classifier to enable automatic classification of skin lesions. In another work, a multi-layer perceptron (MLP) was employed on a smartphone to analyze skin images captured by its camera, thus enabling skin cancer detection . A similar application was proposed in Reference , which upon capturing the image of the skin, can alert the users about a potential sunburn and/or the severity of melanoma. There a novel method to compute the time-to-skin-burn by utilizing the information of burn frequency level and UV index level was introduced. Additionally, for dermoscopic image analysis, a system for the smartphones that incorporates algorithms for image acquisition, hair detection and exclusion, lesion segmentation, feature extraction, and classification was developed. After excluding the hair and identifying the ROI, a comprehensive set of features were extracted to feed to a two-level classifier. The authors reported achieving high accuracy (>95%) in classifying among benign, atypical, and melanoma images. 1e1e36bf2d