Multi-Communication System for Physically Disabled PeopleUsing Raspberry Pi

Today to lead our life we needed to keep running with our quick materialistic world. We express our considerations, by speaking with various individuals in various languages and in various ways Therefore there effectively. In any case, it is troublesome for physically incapacitated individuals, for example, for example, dump, hard of hearing, visually impaired and deadened to express their considerations and thoughts. Is a need to develop such a concrete solution for physically disabled people which will results as a better communication media for them. The designed system resolves the said problems. (1) Dump people can express their thoughts by pressing keyboard buttons (2) When blind/deaf person speaks, Raspberry pi based device converts it into text and displays on screen. (3) The paralyzed people by wearing flex sensor glove can express their thoughts through feasible figure movement. All these activities are possible with a unique embedded system using raspberry pi and disabled people can lead their life peacefully and independently through smooth communication of their ideas and thoughts with their family members, friends and society

Effect of seasonal variations and different housing systems on physiological responses and hematological parameters of buffaloes

An experiment was conducted to study the effect of 2 housing systems and seasonal variations on physiological responses and haematological parameters of buffaloes. Twelve buffaloes were selected and randomly divided into 2 equal groups. Animals of group A were housed in shade with net and animals of group B in shade without net. The experiment was conducted for 2 seasons i.e. monsoon and winter. The physiological responses were recorded weekly. Blood samples were aseptically collected fortnightly and were analyzed for hematological studies. All the parameters of physiological responses viz. respiration rate, rectal temperature, heart rate, and pulse rate were non significantly higher in group B as compared to group A in monsoon and winter seasons. Highly significant increase in mean values of Hb, TEC, TLC and PCV was observed in group A than the group B values in monsoon and winter seasons. Significantly higher values of lymphocytes and neutrophils was observed in group A during monsoon and non-significantly lower values in group B during winter season. Eosinophils and monocytes were non significantly higher in group B during monsoon and winter season as compared to group A. The temperature humidity index (THI) showed significantly lower in group A as compared to group B in both the seasons

Synergism study of Bacopa monnieri and Piriformospora indica and its impact on Biomass and metabolite

Abstract Background A symbiotic connection between Piriformospora indica and Bacopa monnieri (L.) Wettest, obtained through co-cultivation synergism, was found to improve growth, biomass production, and bacoside content in the plants. Brahmi (B. monnieri L.), a well-known Indian plant prized for its memory-boosting properties, has a lengthy history and a premium price tag. Because of its remarkable ability to colonize a wide variety of plant species, the axenically cultivable mycorrhiza-like endophytic fungus P. indica has gained a lot of interest recently. Methods In the current study, fungal spores from recently revived cultures were added to jam bottles next to rooted Brahmi plants for in vitro co-cultivation. The control plants were left without fungal discs. Pre-rooted micro-propagated Brahmi plants were treated with agar discs containing actively growing hyphae. For a period of 3 months, both trials were conducted with a fully randomized setup. Microscopy of the treated and control plant roots verified co-cultivation. Results Microscopic examination of the roots of co-cultivated plants reveals a high degree of colonization with host plants. These endophytic fungal structures include intracellular chlamydospores, and arbuscules, an intercellular and intracellular hyphae network, and a mycelial network on the root surface. In both in vitro and in vivo co-cultivation studies, the plant extended the host plant’s lifespan in 3 months by displaying continuous regeneration; in contrast, the control plant displayed signs of senescence. With biomass exceeding the control by 1.18 times in vivo and 1.28 times in vitro. In vitro, co-cultivation circumstances also led to an increase in the rate of utilization of nutritional medium. In comparison to the control, the amount of bacoside increases to 100% in vivo after a month of co-cultivation and 33% in vitro after 3 months. Conclusions In the present investigation, in vivo co-cultivation showed a favorable interaction effect on biomass production as well as bacoside content, which can satisfy the raw material demands of Brahmi plants in pharmaceutical industries