Abstract
The growth of wireless technology and tablet PC in this era is creating a great impact on our lives. Some early efforts have been made to combine and utilize both of these technologies in advancement of hospitality industry. Nowadays, the majority of restaurants are still operating in an old fashioned way, by using pen and paper to register the orders of customers. The problem using “traditional menu” is probability of paper lost high and misinterprets the handwriting of order. Ours is designed to overcome this problem. By using “tablet PC”, the customer can send orders to the cooking room and cashier in a fast and easy way. TSIR can also give customer feedback to restaurant staff. The methodology that has been used in this paper is based on wireless communication (Wi-Fi). This system is developed by using (visual basic 6.0 and SQL server 2000). This system makes the food ordering process easier. This system, implements wireless data access to SQL server. The Windows 7 application on customer tablet pc will have all the menu details. The restaurant manager can manage the menu modifications easily, via adding and removing items.
Highlights
Cotton is the bulkiest sink of natural textile fiber and a main oilseed crop, with extensive scientific, environmental, and socio-economic footsteps
BR promotes the transverse orientation of microtubules in azuki bean [4], and the brassinolide (BL)-induced epicotyl growth in Cicer arietinum is accompanied by increased β-tubulin expression [5]
We have taken the previously reported supplementary data concerning to BES1 transcription factor and their gene regulatory network (GRN) regulation in Arabidopsis for validation, where similar type of study have performed for only one BES1 transcription factor [13]
Summary
Cotton is the bulkiest sink of natural textile fiber and a main oilseed crop, with extensive scientific, environmental, and socio-economic footsteps. Cotton fiber is a highly elongated seed hair with a secondary wall composed of almost pure cellulose. Development of cotton fibers is positively affected by a number of phytohormones including auxin, gibberellins and brassinosteroids (BRs) [1,2]. BR accelerates cell elongation and affects cytoskeletal and cell wall structure. Among the first BR-responsive genes to be identified, BR-unregulated gene 1 (BRU1) from soybean [6] was identified as a xyloglucan endotransglycosylase gene (i.e. XTH). These enzymes are involved in cell wall loosening [6] and provide a direct link between BR and its effects on cell wall development. The cotton counterparts of these genes were reported to be preferentially expressed in cotton fibers [9]
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