Stochastic Decision Making for Adaptive Crowdsourcing in Medical Big-Data Platforms

Two novel algorithms for adaptive crowdsourcing in Medical imaging big-data platforms is considered, namely, a max-weight scheduling algorithm for medical cloud platforms and a stochastic decision-making algorithm for distributed power-and-latency-aware dynamic buffer management in medical devices. In the first algorithm, medical cloud platforms perform a joint queue-backlog and rate-aware scheduling decisions for matching deployed access points (APs) and medical users where APs are eventually connected to medical clouds. In the second algorithm, each scheduled medical device computes the amounts of power allocation to upload its own medical data to medical big-data clouds with stochastic decision making considering joint energy-efficiency and buffer stability optimization.

//www.youtube.com/watch?v=MF1l8KVLj8Q

EXISTING SYSTEM

• There is no prior work on scheduling and buffer management in the context of medical big-data platforms
• In the general wireless scheduling literature, the sum-rate-maximization (SRM) scheduling is one of the well known schemes that is most closely related to proposed max-weight scheduling.

Disadvantages

• Since the SRM schedules user based only on data rates
• SRM Schedules has no effect on buffer-backlog and management.

PROPOSED SYSTEM

• In this proposed medical storage system, 60-GHz wireless technologies is considered for in-hospital wireless network access. The choice of wireless technologies has been widely advocated and accepted in the literature because of high data rates achieved by ultrawide-bandwidth; e.g., 2.16 GHz in one subchannel and four subchannels in one channel.
• Two algorithms are proposed to address the scheduler and buffer management in medical platforms.
• The proposed medical platform makes scheduling decisions in each time unit for matching deployed APs and MUs, where the APs are eventually connected to medical platforms.
• The proposed medical platform makes the scheduling decision according to the principle of max-weight, which considers data rates between APs and MUs and the queuebacklog size for medical devices.

Advantages

• Efficient medical platform design
• Address the problem of buffer management and scheduler design
• Avoid data overflow and loss in medical devices.

SOFTWARE SPECIFICATION

Programming Language   : JDK 1.5 or higher

Database                  : MySQL 5.0

 

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