Description: 很多网友来信反应说之前发布的源代码文件包里缺少文件,我下载打开一看果真如此,实在惭愧之极啊,现请更新过来,您现在将要下载的是更新后没有问题的源代码。
利用蓝牙(Bluetooth) APIs 编写的多种方式进行蓝牙设备查找、服务发现启动,蓝牙虚拟串口的通信,支持16进制和字符串两种方式。
你可以任意修改复制本代码,但请保留这段文字不要修改。
希望我能为中国的软件行业尽一份薄力!
◆◆◆ 作者 ◆◆◆
谢红伟 · chrys · chrys@163.com · http://www.viction.net
◆◆◆ 日期 ◆◆◆
2008年06月24日 17点11分-Many netizens said that a letter from the reaction before the release of source code files bag lack of paper, I download what we can see in the case, it is extremely ashamed ah, please update them, you will now have to download the update no problem with the source code. Bluetooth (Bluetooth) APIs prepared a variety of ways to find Bluetooth device, service discovery start, Bluetooth virtual serial port communications, to support the 16-band and string in two ways. You can modify a copy of any code, but please do not modify this text retained. I hope I can fulfill China s software industry thin edge! ◆ ◆ ◆ ◆ ◆ ◆ Author谢红伟chrys chrys@163.com http://www.viction.net ◆ ◆ ◆ Date ◆ ◆ ◆ 2008 on 24 day 06 years 17 point 11 hours Platform: |
Size: 110592 |
Author:谢红伟 |
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Description: C++开发,调用蓝牙功能的例子
描述:
这个范例提供了一个实施简单的蓝芽装置发现
通过Winsock的空气污染指数2 。它提供了一个ListBox控件,在搜索时
完成后,列出发现的蓝牙设备。只有姓名装置
显示,但地址的设备也发音,并能
被用来查询设备的更多信息(尚未实施)
-C++ Development, examples of Bluetooth-enabled call Description: This example provides an implementation of a simple Bluetooth device discovery through the Winsock API 2. It provides a ListBox control, in the search completed, the list of Bluetooth devices found. Show only the names of devices, but also addresses equipment pronunciation, and can be used to query devices for more information (not yet implemented) Platform: |
Size: 31744 |
Author:Felix |
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Description: Using visual tags to bypass Bluetooth device discovery.-One factor that has limited the use of Bluetooth as a networking technology for publicly
accessible mobile services is the way in which it handles Device Discovery. Establishing
a Bluetooth connection between two devices that have not seen each other before is slow
and, from a usability perspective, often awkward. In this paper we present the
implementation
of an end-to-end Bluetooth-based mobile service framework designed specifically to
address this issue. Rather than using the standard Bluetooth Device Discovery model to
detect nearby mobile services, our system relies on machine-readable visual tags for outof-
band device and service selection. Our work is motivated by the recent proliferation of
cameraphones and PDAs with built-in cameras. We have implemented the described framework
completely for Nokia Series 60 cameraphones and demonstrated that our tag-based
connection-establishment technique (i) offers order of magnitude time improvements over
the standard Bluet Platform: |
Size: 200704 |
Author:nihao |
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Description: Handoff support for mobility with IP over Bluetooth-One factor that has limited the use of Bluetooth as a networking technology for publicly
accessible mobile services is the way in which it handles Device Discovery. Establishing
a Bluetooth connection between two devices that have not seen each other before is slow
and, from a usability perspective, often awkward. In this paper we present the
implementation
of an end-to-end Bluetooth-based mobile service framework designed specifically to
address this issue. Rather than using the standard Bluetooth Device Discovery model to
detect nearby mobile services, our system relies on machine-readable visual tags for outof-
band device and service selection. Our work is motivated by the recent proliferation of
cameraphones and PDAs with built-in cameras. We have implemented the described framework
completely for Nokia Series 60 cameraphones and demonstrated that our tag-based
connection-establishment technique (i) offers order of magnitude time improvements over
the standard Bluet Platform: |
Size: 1053696 |
Author:wang |
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Description: Rendezvous layer protocols for Bluetooth-enabled smart devices-
Communication platforms for ubiquitous computing need to
be flexible, self-organizing, highly scalable and energy efficient, because in
the envisioned scenarios a large number of autonomous entities communicate
in potentially unpredictable ways. Short-range wireless technologies
form the basis of such communication platforms. In this paper we investigate
device discovery in Bluetooth, a candidate wireless technology for
ubiquitous computing. Detecting new devices accounts for a significant
portion of the total energy consumption in Bluetooth. It is argued that
the standard Bluetooth rendezvous protocols for device detection are not
well suited for ubiquitous computing scenarios, because they do not scale
to a large number of devices, take too long to complete, and consume too
much energy. Based on theoretical considerations, practical experiments
and simulation results, recommendations for choosing inquiry parameters
are given that optimize discovery performance. We prop Platform: |
Size: 348160 |
Author:wang |
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